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<Header><Sender><SenderName>unglue.it</SenderName><EmailAddress>unglueit@ebookfoundation.org</EmailAddress></Sender><SentDateTime>20260718T071322Z</SentDateTime><MessageNote>Unglue.it Finite elements</MessageNote></Header><Product><RecordReference>it.unglue.work.491609.659397</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>659397</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Advances in Dam Engineering</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>M. Amin Hariri-Ardebili</PersonName><PersonNameInverted>Hariri-Ardebili, M. Amin</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Jerzy Salamon</PersonName><PersonNameInverted>Salamon, Jerzy</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Guido Mazzà</PersonName><PersonNameInverted>Mazzà, Guido</PersonNameInverted></Contributor><Contributor><SequenceNumber>4</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Hasan Tosun</PersonName><PersonNameInverted>Tosun, Hasan</PersonNameInverted></Contributor><Contributor><SequenceNumber>5</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Bin Xu</PersonName><PersonNameInverted>Xu, Bin</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>alkali-silica reaction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>arch dams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>central clay core</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>concrete arch dams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>concrete dam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>concrete dams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>concrete gravity dams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>crack prediction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dam safety</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Dams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>downstream shoulder</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dynamic capacity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>earth dam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>earthfill dam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>endurance time analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Excavation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>existing concrete dam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>failure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>field</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>geodetic monitoring</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Groundwater</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>health monitoring</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>History of engineering &amp; technology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Instrumentation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>long-term behaviour</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Movement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>non-linear finite element analyses</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nonlinear</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>passive rock bolt</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>performance based earthquake engineering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>probabilistic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>progressive failure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Rainfall</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reservoir level fluctuations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>response correlation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>saturation degree</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>seasonal temperature variations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>seepage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>seismic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>seismic effects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>seismic fragility analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>settlements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>soil nail</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>spatial</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stability assessment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Stochastic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>structural safety and reliability</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>temperature</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Uncertainty Quantification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>variability</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Expansion of water resources is a key factor in the socio-economic development of all countries. Dams play a critical role in water storage, especially for areas with unequal rainfall and limited water availability. While the safety of existing dams, periodic re-evaluations and life extensions are the primary objectives in developed countries, the design and construction of new dams are the main concerns in developing countries. The role of dam engineers has greatly changed over recent decades. Thanks to new technologies, the surveillance, monitoring, design and analysis tasks involved in this process have significantly improved. The current edited book is a collection of dam-related papers. The overall aim of this edited book is to improve modeling, simulation and field measurements for different dam types (i.e. concrete gravity dams, concrete arch dams, and embankments). The articles cover a wide range of topics on the subject of dams, and reflect the scientific efforts and engineering approaches in this challenging and exciting research field.<br/><br/>Listed by <a href="https://unglue.it/work/491609/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing 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id</IDTypeName><IDValue>616819</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783039216581</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Advances in Mechanical Problems of Functionally Graded Materials and Structures</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Tinh Quoc Bui</PersonName><PersonNameInverted>Bui, Tinh Quoc</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Le Van Lich</PersonName><PersonNameInverted>Lich, Le Van</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Tiantang Yu</PersonName><PersonNameInverted>Yu, Tiantang</PersonNameInverted></Contributor><Contributor><SequenceNumber>4</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Indra Vir Singh</PersonName><PersonNameInverted>Singh, Indra Vir</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>analytical solution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ANFIS</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>attenuation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bimodulus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>circular plate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Clustering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>combined mechanical loads</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damping coefficient</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>different moduli in tension and compression</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dispersion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elastic foundation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elastoplastic analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>electroelastic solution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elliptical hole</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>evanescent wave</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>external pressure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>failure and damage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flow theory of plasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>free vibration characteristics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functional graded saturated material</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded beams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded piezoelectric materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded piezoelectric-piezomagnetic material</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded plate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded viscoelastic material</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fuzzy logic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>general edge conditions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>geometrically nonlinear analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>graded finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>high order shear deformation theory</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hollow disc</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>inhomogeneity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>inhomogeneous composite materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Lamb wave</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>large strain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Love wave</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>material design</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metal foam core layer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>minimum module approximation method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>neural networks</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>neutral layer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>non-linear buckling analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>orthogonal stiffener</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polynomial approach</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Porous materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>power-law distribution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pure bending</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quadratic solid–shell elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>residual strain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>residual stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>robotics and contact wear</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>spring stiffness technique</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stepped FG paraboloidal shell</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress concentration factor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thin structures</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>truncated conical sandwich shell</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The book deals with novel aspects and perspectives in functionally graded materials (FGMs), which are advanced engineering materials designed for a specific performance or function with spatial gradation in structure and/or composition. The contributions mainly focus on numerical simulations of mechanical properties and the behavior of FGMs and FGM structures. Several advancements in numerical simulations that are particularly useful for investigations on FGMs have been proposed and demonstrated in this Special Issue. Such proposed approaches provide incisive methods to explore and predict the mechanical and structural characteristics of FGMs subjected to thermoelectromechanical loadings under various boundary and environmental conditions. The contributions have resulted in enhanced activity regarding the prediction of FGM properties and global structural responses, which are of great importance when considering the potential applications of FGM structures. Furthermore, the presented scientific scope is, in some way, an answer to the continuous demand for FGM structures, and opens new perspectives for their practical use.<br/><br/>Listed by <a href="https://unglue.it/work/455829/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/e0/ed/e0ed55cb15263586fb959771e1385b09.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing 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Majorana</PersonName><PersonNameInverted>Majorana, Carmelo</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Raimondo Luciano</PersonName><PersonNameInverted>Luciano, Raimondo</PersonNameInverted></Contributor><Contributor><SequenceNumber>4</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Michele Bacciocchi</PersonName><PersonNameInverted>Bacciocchi, Michele</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3D elasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>acoustic black holes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>acoustic-oriented 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beams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Quasi-3D</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rate-dependent</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reference, information &amp; interdisciplinary subjects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Reinforced concrete</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Research &amp; information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rigid finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sandwich plates</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Searle parameter</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>soda-lime glass</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>static bending</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>steel-polymer concrete</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stochastic fracture network</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain localization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermoelasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>three-phase composite materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transient heat flux</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Vibroacoustics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>viscoplastic regularization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>zig-zag theory</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>It is well known that many structural and physical problems cannot be solved by analytical approaches. These problems require the development of numerical methods to get approximate but accurate solutions. The minite element method (FEM) represents one of the most typical methodologies that can be used to achieve this aim, due to its simple implementation, easy adaptability, and very good accuracy. For these reasons, the FEM is a widespread technique which is employed in many engineering fields, such as civil, mechanical, and aerospace engineering. The large-scale deployment of powerful computers and the consequent recent improvement of the computational resources have provided the tools to develop numerical approaches that are able to solve more complex structural systems characterized by peculiar mechanical configurations. Laminated or multi-phase composites, structures made of innovative materials, and nanostructures are just some examples of applications that are commonly and accurately solved by the FEM. Analogously, the same numerical approaches can be employed to validate the results of experimental tests. The main aim of this Special Issue is to collect numerical investigations focused on the use of the finite element method<br/><br/>Listed by <a href="https://unglue.it/work/518958/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/fd/a9/fda9c433319bab4483507659f9b38391.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2021</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/368364/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.518530.694677</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>694677</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Applications of Finite Element Modeling for Mechanical and Mechatronic Systems</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Marek Krawczuk</PersonName><PersonNameInverted>Krawczuk, Marek</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Magdalena Palacz</PersonName><PersonNameInverted>Palacz, Magdalena</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Abaqus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>active periodic structures</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>adaptivity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Almen intensity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aluminum conductor steel-reinforced cable</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>applied load</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aramid fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>assessment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bell crank</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bend deformation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bias tire</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biomechanics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>channel</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>collision modeling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>contact detection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Convergence</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>crack detection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cut bar 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method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>experiment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fatigue fracture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>FEA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>FEM</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element modeling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite Elements Analysis (FEA)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite volumne method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>first-order models</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>friction coefficient</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>generative modelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>HALE UAV</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>head injury</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat lakes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hierarchical models</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>high peening coverage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hp-adaptivity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hpq/hp-approximations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hybrid 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analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SFEM</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>shot peening</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>shrinkage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>single-sided</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Smart materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Solid Mechanics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Spontaneous Combustion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>steady-state</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain deviation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress gradients</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>surface profile</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>swingarm</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>textile cord</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal conductivity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thin-layer composite structure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>three-wheel motorcycle</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>topology optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>torsion springs</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transition models</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>turbine blade</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>underground coal mine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>utilization factor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ventilation system</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vibrometer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>web deformation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Wind loads</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Modern engineering practice requires advanced numerical modeling because, among other things, it reduces the costs associated with prototyping or predicting the occurrence of potentially dangerous situations during operation in certain defined conditions. Thus far, different methods have been used to implement the real structure into the numerical version. The most popular uses have been variations of the finite element method (FEM). The aim of this Special Issue has been to familiarize the reader with the latest applications of the FEM for the modeling and analysis of diverse mechanical problems. Authors are encouraged to provide a concise description of the specific application or a potential application of the Special Issue.<br/><br/>Listed by <a href="https://unglue.it/work/518530/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/26/a2/26a25c15f6dccdd3a9c4556b10ee825d.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2021</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/368163/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.458997.621017</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>621017</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783039289653</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Biomaterials for Bone Tissue Engineering</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>José A. Sanz-Herrera</PersonName><PersonNameInverted>Sanz-Herrera, José A.</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3D virtual surgical plan</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3D-printed implant</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>additive manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Adipogenesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>automatic 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proteins</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bone Regeneration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone tissue</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone tissue engineering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone tissue regeneration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone tumor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cartilage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational fluid 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stimulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>electrically active implants</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element modelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite-element 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window</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>spark plasma sintering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stem cell</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>substrate-mediated electrical stimulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Ti6Al4V scaffolds</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Titanium</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>trabeculae</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>trabecular bone score</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transport</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>triply periodic minimal surfaces</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vertebra</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Von Mises stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wollastonite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Xenografts</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Bone tissue engineering aims to develop artificial bone substitutes that partially or totally restore the natural regeneration capability of bone tissue lost under circumstances of injury, significant defects, or diseases such as osteoporosis. In this context, biomaterials are the keystone of the methodology. Biomaterials for bone tissue engineering have evolved from biocompatible materials that mimic the physical and chemical environment of bone tissue to a new generation of materials that actively interacts with the physiological environment, accelerating bone tissue growth. Mathematical modelling and simulation are important tools in the overall methodology. This book presents an overview of the current investigations and recent contributions in the field of bone tissue engineering. It includes several successful examples of multidisciplinary collaboration in this transversal area of research. The book is intended for students, researchers, and professionals of a number of disciplines, such as engineering, mathematics, physics, chemistry, biomedicine, biology, and veterinary. The book is composed of an editorial section and 16 original research papers authored by leading researchers of this discipline from different laboratories across the world<br/><br/>Listed by <a href="https://unglue.it/work/458997/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://encrypted.google.com/books?id=-kbnDwAAQBAJ&amp;printsec=frontcover&amp;img=1&amp;zoom=1</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>20200527</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/465916/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.569314.761350</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>761350</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Biomedical Imaging Technologies for Cardiovascular Disease</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Julio Garcia Flores</PersonName><PersonNameInverted>Flores, Julio Garcia</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>13N-ammonia</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>15O-water</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>18F-fluorodeoxyglucose</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>18F-sodium fluoride</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>4D flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>4D flow MRI</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>4D-flow MRI</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aneurysm</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aorta</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cardiac contractility modulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cardiac magnetic resonance (CMR)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Cardiovascular medicine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Children</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Classification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Clinical &amp; internal medicine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CMR</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>coronary heart disease</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>diastolic disfunction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dilated cardiomyopathy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>echocardiography</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>erectile dysfunction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flow quantification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heart hemodynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hemodynamic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hemodynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>iron oxide nanoparticles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>left ventricle</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>left ventricular hypertrophy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Machine learning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Magnetic Resonance Imaging</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>medicine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nitric oxide signaling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>perfusion imaging</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>plaque imaging</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>positron emission tomography</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pulmonary arterial hypertension</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pulmonary hypertension</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reproducibility</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>right ventricle</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>right ventricle–pulmonary artery coupling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>right ventricular function</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Rubidium-82</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>self-gating</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>speckle-tracking</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tricuspid tissue motion annular displacement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ultrasmall superparamagnetic particles of iron oxide (USPIO)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>viability imaging</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>This reprint aims to provide an update on the biomedical imaging technologies that can be used for cardiovascular diseases, including Doppler echocardiography, magnetic resonance imaging and positron emission tomography. Cardiovascular disease imaging assessment includes anatomy, hemodynamics, and tissue biomarkers, which aid the stratification of patient risk and therapy. In addition, this Special Issue includes articles that discuss the recent integration of artificial intelligence and machine learning, in order to support novel approaches to personalized image-based diagnosis.<br/><br/>Listed by <a href="https://unglue.it/work/569314/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2023</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/407312/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.656304.877901</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>877901</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Carbon Fiber Composites</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Jiadeng Zhu</PersonName><PersonNameInverted>Zhu, Jiadeng</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Guoqing Li</PersonName><PersonNameInverted>Li, Guoqing</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Lixing Kang</PersonName><PersonNameInverted>Kang, Lixing</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>acoustic emission</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>additive manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>advanced composite cure simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>arctic temperature</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>barely visible impact damage (BVID)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bending behavior</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Carbon composites</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber reinforced plastics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber reinforced polymer (CFRP)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber-reinforced composites</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fibers</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon nano fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon nanotubes (CNT)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon short fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon-polymer adhesion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carding</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CF rod reinforced PLA (CFRPLA)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CFRP</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>closed-injection pultrusion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite beams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite plate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite sandwich structure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite structures</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite tensile armor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composites</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>compressive properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>contact molding</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>curing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>curing process monitoring</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage detection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage growth</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage tolerance</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>delamination</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Design of experiments</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>electrospinning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Embedded sensors</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>epoxy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>epoxy matrix</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>expansion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Fatigue</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fatigue after impact</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fiber reinforced polymer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>film sensor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flexible riser</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flexible sensor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fluid flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fracture toughness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fused deposition modeling (FDM)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fuzzy carbon fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>glass fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Graphene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>graphene-encapsulated</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hot pressing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>impact</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>impact performance</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>in situ measurements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>interdigital sensor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>interfacial property</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>knowledge-based data boosting</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Latin hypercube sampling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>low cost</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>low pressure infiltration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Machine learning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Materials science</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanical and thermal properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanical interlocking</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanical performance</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mechanical properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metal matrix composite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Molecular Dynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Nanoparticles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nonwoven</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>OER</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>optimization study</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PAN</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pet</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>piezoelectric wafer active sensors (PWAS)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polyamide 6</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polyethylene terephthalate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polymer matrix</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Polymers</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polypropylene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>power ultrasonic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>predictive analytic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>preform-less</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>prepreg processing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>process parameters</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>process-induced shape deformation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pultrusion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quantum piezo-resistive sensor (QRS)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>recycling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>renewables</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Sensing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sensor integration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Smart materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>solid carbon fiber rod</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress concentration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Structural health monitoring</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>structural health monitoring (SHM)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tensile armor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tensile strength</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thema EDItEUR::P Mathematics and Science</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thema EDItEUR::P Mathematics and Science::PN Chemistry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thema EDItEUR::P Mathematics and Science::PN Chemistry::PNC Environmental chemistry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal and mechanical property</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal cycling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermoplast</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Thermoplastics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Tissue Engineering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>turbostratic interconnected graphene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>uniaxial deformation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>viscosity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wettability</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Many efforts have been made to create light-weight materials that maintain excellent physical and chemical properties, aiming at energy savings and property enhancement for aerospace, automotive, marine, and industrial applications over the past few decades. Among them, carbon fibers and their composites have attracted significant attention because of their unique properties, including high strength and modulus, novel dimensional stability, high surface area/volume ratios, low coefficient of thermal expansion, etc. Therefore, they have been widely applied in fields of energy storage, filtration, aircraft, etc., via advanced manufacturing technologies (i.e., wet/melt spinning, solution casting, 3D printing, etc.). Processing–structure–property relationships of carbon fibers and their composites are crucial for their future applications in the fields of energy, engineering, and the environment. Various precursors and processing approaches have been studied to prepare carbon fibers and composites with specific structures to achieve excellent multifunctional properties, consisting of better mechanical, thermal, electrical, and barrier properties. However, to date, lowering the manufacturing cost and expanding their applications remain challenging. The main aim of this Special Issue is to tackle the points mentioned above for the preparation, characterization, and properties of advanced carbon fibers and their composites to offer an insight into them, facilitating their practical applications in various fields.<br/><br/>Listed by <a href="https://unglue.it/work/656304/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2024</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/472511/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.492625.660414</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>660414</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Cast Irons</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Paolo Ferro</PersonName><PersonNameInverted>Ferro, Paolo</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>abrasive wear</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>boundary element method (BEM)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbide volume fraction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cast iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chemical composition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>compacted graphite iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational homogenization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cooling rate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>drilling machinability</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dry machining</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ductile cast irons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ductile iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>effective elastic properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>effective Young’s modulus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>eutectic carbide</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Fatigue</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gravity casting process simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hardness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>high chromium cast irons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>high-chromium</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>History of engineering &amp; technology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>homogenization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Image analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>lamellar graphite iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MatCalc</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mechanical properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>micro-CT</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Microstructure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>minimum quantity lubrication (MQL)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multiscale numerical methods</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>niobium alloying</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nodular cast iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>periodic boundary conditions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>plasticity modelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pre-heating</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>primary austenite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>representative volume elements (RVEs)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Segregation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>silicon solution strengthened ferritic ductile iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>solidification time</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>spheroidal graphite cast iron</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tensile tests</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thickness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ultimate tensile strength</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>weldability</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The demand for cast iron components, with weights ranging from a few kilograms to several tons, has increased significantly in recent years, both for technical and economic reasons. In fact, the lower cost compared to other alloys, and the good castability, which allow one to obtain near-net shape components in as-cast conditions, and the mechanical properties that can be obtained, are just some of the motivations that attract mechanical designers. However, correct design requires a good knowledge of the intrinsic correlation among alloy chemical composition, process parameters, microstructure (with casting defects) and mechanical properties. This book is aimed at collecting excellent and recent research experimental and theoretical works in this filed. Technological (say, wear resistance and weldability) and mechanical properties (say, Young modulus, static and fatigue strength) of different grades of cast irons, ranging from solution strengthened ferritic ductile iron to compacted graphite iron as well as white and nodular cast irons, are correlated with the alloy chemical composition, process parameters and casting dimension.<br/><br/>Listed by <a href="https://unglue.it/work/492625/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2020</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/382731/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.491950.659739</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>659739</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Mesh-Free and Finite Element-Based Methods for Structural Mechanics Applications</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Nicholas Fantuzzi</PersonName><PersonNameInverted>Fantuzzi, Nicholas</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bifurcations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>biostructure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cohesive elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>complex variables</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>conformal mapping</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>continuation methods</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>direction field</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elastodynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>equivalent single-layer approach</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>experimental test</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element modelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>first-order shear deformation theory</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionally graded materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>FW-H equations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Galerkin weighted residual FEM</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gold nanowire</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat conduction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>higher-order shear deformation theory</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>History of engineering &amp; technology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>joint static strength</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>laminated composite plates</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>limit points</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>marine propeller</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>maximum-flow/minimum-cut</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mesh adaptation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Noise</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>non-circular deep tunnel</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>non-uniform mechanical properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nonlocal elasticity theory</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>numerical modeling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Numerical Simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>paddlefish</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>panel method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>parametric investigation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Polyodon spathula</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>porosity distributions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>principal stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reinforced joint (collar and doubler plate)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rostrum</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>shear correction factor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>silicon carbide nanowire</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>silver nanowire</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>space-time</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress patterns</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tailored fiber placement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tensor line</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The problem of solving complex engineering problems has always been a major topic in all industrial fields, such as aerospace, civil and mechanical engineering. The use of numerical methods has increased exponentially in the last few years, due to modern computers in the field of structural mechanics. Moreover, a wide range of numerical methods have been presented in the literature for solving such problems. Structural mechanics problems are dealt with using partial differential systems of equations that might be solved by following the two main classes of methods: Domain-decomposition methods or the so-called finite element methods and mesh-free methods where no decomposition is carried out. Both methodologies discretize a partial differential system into a set of algebraic equations that can be easily solved by computer implementation. The aim of the present Special Issue is to present a collection of recent works on these themes and a comparison of the novel advancements of both worlds in structural mechanics applications.<br/><br/>Listed by <a href="https://unglue.it/work/491950/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2021</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/465746/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.567587.759214</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>759214</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Multiscale Simulation of Composite Structures</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Stelios K. Georgantzinos</PersonName><PersonNameInverted>Georgantzinos, Stelios K.</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>adaptive neuro-fuzzy inference system</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>approximate reanalysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aramid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>axial capacity prediction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biology, Life Sciences</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone-shaped</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>braided composites</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>buckling capacity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>circular opening steel beams</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cold-formed tube</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite beam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite steel plate shear wall</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>composite structures</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational techniques</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>crack width</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage assessment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>damage evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>deflection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Ductility</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Economics, finance, business &amp; management</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>energy absorption</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>feedforward neural network</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite element analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite Element Model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fisheries &amp; related industries</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flexural strength</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fullerene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Graphene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>homogenization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hybrid machine learning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hybrid matrix</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hysteresis curves</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>impact</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Industry &amp; industrial studies</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>invasive weed optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mathematics &amp; science</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MATLAB</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanical analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mesoscale model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Microstructure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Molecular Dynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multiscale</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multiscale simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nanocomposite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nanotube</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>notched specimen</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>on-the-fly construction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>particle swarm parameters</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PMMA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>POD</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polymer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Primary industries</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rectangular CFST columns</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>recycled concrete</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reduced basis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reduced order models</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reference, information &amp; interdisciplinary subjects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Research &amp; information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>static behavior</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stiffened CFST beam</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress-strain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>studs</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>topology optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vibrations</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Composites can be engineered to exhibit high strength, high stiffness, and high toughness. Composite structures have increasingly been used in various engineering applications. In recent decades, most fundamentals of science have expanded in length by many orders of magnitude. Nowadays, one of the primary goals of science and technology seems to be to develop reliable methods for linking the physical phenomena that occur over multiple length scales, particularly from a nano-/microscale to a macroscale. To engineer composites for high performance and to design advanced structures, the relationship between material nano-/microstructures and their macroscopic properties must be established to accurately predict their mechanical performance and failure. Multiscale simulation is a tool that enables studying and comprehending complex systems and phenomena that would otherwise be too expensive or dangerous, or even impossible, to study by direct experimentation and, thus, to achieve this goal.This reprint assembles high-quality chapters that advance the field of the multiscale simulation of composite structures, through the application of any modern computational and/or analytical methods alone or in conjunction with experimental techniques, for damage assessment or mechanical analysis and prediction.<br/><br/>Listed by <a href="https://unglue.it/work/567587/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/10/57/1057a50cc21a1c37b0b0fa59b6a99186.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2023</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/407155/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.578175.773120</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>773120</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Numerical Simulation in Biomechanics and Biomedical Engineering-II</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Mauro Malvè</PersonName><PersonNameInverted>Malvè, Mauro</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3D model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>absolute maximum principal stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>adaptive control</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>arterial biomechanics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Atherosclerosis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biochemical engineering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biotechnology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>blood–brain barrier microvasculature</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone density distribution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bone remodelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Brownian motion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carotid artery</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CFD</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chaotic model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational fluid dynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>correlation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cortical capillary network</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dense discrete particle model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Dosimetry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Drug delivery</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>elastic bed boundary condition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>exogenous power propulsion strategy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>femoral coordinate system</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ferrofluid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fibrous cap thickness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite Element Model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flatfoot</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fluctuation of stresses</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Hamilton—Jacobi Inequality</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hemodynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>imageless navigator</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>imaging technique</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>immersed boundary method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>in silico</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>intravascular ultrasound</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>knee alignment device</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>L2 gain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>level set</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>liver cancer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mandibular advancement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanical stimulus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mechanobiological model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>microvascular hemodynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>modified Whiteside’s line</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multiple myeloma</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Navier-Stokes equations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>numerical model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>OSA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>osteotomy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>parameter analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>patient-specific</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pes planus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>potential swirling flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>radial basis function neural network</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>repeatable transepicondylar axis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Robin boundary condition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Robust control</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>segmentation method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Sleep Apnea</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain energy density</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain gradient</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stress redistribution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Targeted Drug Delivery</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tissue clarification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tornado-like jets</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Total knee arthroplasty</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tracking controller</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>treatment planning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tumor aggregate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tumor targeting</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>unfitted method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>unsteady swirling flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wearable robotic knee</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>This reprint presents a collection of significant contributions to advancement of the application of the mathematical modeling to biomechanics and the biomedical engineering. This publication contains a particularly diverse set of contributions. For instance, Latif and co-authors review the specifications to model the upper airways before mandibular advancement surgery. Calvo-Gallego et al. propose local stress and strain tensors-derived variables as candidates for bone mechanical stimuli. Sohail et al. present a methodology for total knee arthroplasty. Latorre et al. propose the use of estimated strains to develop a methodology for plaque segmentation in arterial vessels. Lertxundi et al. simulate the blood flow and the microsphere transport during radioembolization for liver cancer treatment. Mañosas et al. combine tissue clarification, advanced microscopy and image analysis to develop a one-dimensional computational model of murine microvasculature hemodynamics. Talygin et al. obtain new quantitative parameters that characterize the normal and pathological aorta. Nježić et al. analyze the motion of nanoparticles in a ferrofluid environment. Hernández-López and co-workers study the parameter influence on lesion growth using a mechanobiological model of atherosclerosis. Jerbi et al present an adaptive learning tracking controller of a wearable robotic knee system. Gahima et al. introduce a novel formulation for a linear elastic model of a heterogeneous arterial section. Urdeitx et al. develop a novel hybrid 3D agent-based model to study multiple myeloma cell growth. Finally, Bayod et al. evaluate the stress generated by medializing calcaneal osteotomyin in hindfoot and forefoot bones.<br/><br/>Listed by <a href="https://unglue.it/work/578175/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/de/09/de09b0c09543b14f63f0bb67ebb7394e.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2023</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/412430/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.492217.660006</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>660006</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Numerical Simulation of Convective-Radiative Heat Transfer</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Mikhail Sheremet</PersonName><PersonNameInverted>Sheremet, Mikhail</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>adiabatic calorimetry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>analytical and numerical method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>boundary layer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bubble</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Carreau fluid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CFD simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>channel</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational fluid dynamics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational fluid dynamics (CFD)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>convection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cylinder</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dimple</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dual solutions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>efficiency of annular fin</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>electric furnace</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fin base temperature</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite difference method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>finite-element method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>free convection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Heat</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat capacity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat source of volumetric heat generation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat source/sink</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat transfer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat transfer modification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heat treatment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>liquid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>local heat-generating element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>measurements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mixed convection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>modeling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nanofluid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nanofluids</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>natural convection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>non-Newtonian fluid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>numerical investigation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Numerical Simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Ostrogradsky number</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PCMs</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>photovoltaic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reference, information &amp; interdisciplinary subjects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Research &amp; information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>semi-analytical model</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>slip condition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stability analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>stagnation sheet</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>storage tank</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sudden pipe expansion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>surface radiation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tempering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal efficiency</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermal radiation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermocapillarity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thin film</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>three-dimensional flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>triple solutions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>tube array</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>turbulent bubbly flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>two-phase heat transfer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vapor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vortex</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wall friction</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>This book presents numerical, experimental, and analytical analysis of convective and radiative heat transfer in various engineering and natural systems, including transport phenomena in heat exchangers and furnaces, cooling of electronic heat-generating elements, and thin-film flows in various technical systems. It is well known that such heat transfer mechanisms are dominant in the systems under consideration. Therefore, in-depth study of these regimes is vital for both the growth of industry and the preservation of natural resources. The authors included in this book present insightful and provocative studies on convective and radiative heat transfer using modern analytical techniques. This book will be very useful for academics, engineers, and advanced students.<br/><br/>Listed by <a href="https://unglue.it/work/492217/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2020</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/465469/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.407970.554941</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>554941</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783731504443</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-SA</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-sa/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Numerische Untersuchung des Verformungs- und Bruchverhaltens von einkristallinem Wolfram auf mikroskopischer Ebene</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Bohnert, Christoph</PersonName><PersonNameInverted>Christoph, Bohnert,</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>ger</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bruchzähigkeit</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Crystal plasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite Elemente</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fracture toughness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>KristallplastizitätSingle Crystal Tungsten</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Microcracking</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mikrorißbildung</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Wolframeinkristall</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The aim of the present work is to describe the deformation and fracture behavior of single crystal tungsten at the microscopic scale by using the ?nite element method. Therefore, the studies focus mainly on the in?uence of crystal orientation as well as the investigation of crack initiation and crack propagation. With a defined crack propagation model, the simulations of microbending allows for evaluating the details of the fracture process more accurately and supported the experimental studies.<br/><br/>Listed by <a href="https://unglue.it/work/407970/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/e2/03/e203d9da93e21ab31257af4d63cf7b94.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>KIT Scientific Publishing</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>20160411</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/266971/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.492309.660098</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>660098</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019)</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Eva M. Rubio</PersonName><PersonNameInverted>Rubio, Eva M.</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Ana M. Camacho</PersonName><PersonNameInverted>Camacho, Ana M.</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3D printing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ABS</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>accuracy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>additive manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Al-SiC</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Aluminum</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>anisotropy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ANOVA (Analysis of variance)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>arithmetical mean roughness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ASTM D638–14:2014</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>average maximum height</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>AWJM</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>AWJM (Abrasive waterjet machining)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ballast waste</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bayesian inference</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bi-metallic</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bimodulus materials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>build angle</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>C/TPU (carbon/polyurethane)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>calibration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>calibration artifact</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbon fiber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CBN</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CFRP</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CFRTP 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fabrication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>green manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>grounding electrodes in two-layered soils</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hidden Markov chain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>History of engineering &amp; technology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hybrid components</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Image processing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>incremental 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flow</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>material removal processes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>material removed rate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Measurement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mechanical properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mechatronics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metal forming</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metal matrix composite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metrology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>micromachines</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>micromanufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Microscopy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Microstructure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>modeling and simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Modelling and simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Monte Carlo method</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MQL</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multi-response optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>occupational accident</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>OD grinding</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>orthoses</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PEEK-GF30</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PLA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polyamide</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polylactic acid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polymer injection moulding</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>position compensation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>position control</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>prepeg</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>print orientation angle</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>printing time</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>process parameters</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>prostheses</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quality assessment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quality enhancement</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quality in manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>03</SubjectSchemeIdentifier><SubjectCode>RA</SubjectCode></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Raman spectroscopy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rapid prototyping</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>repair and maintenance operations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Risk assessment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>risk control</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Risk management</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rotary dresser</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>roughness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RSM (response surface methodology)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>03</SubjectSchemeIdentifier><SubjectCode>RZ</SubjectCode></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>selective laser sintering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sheet–tube connections</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Shipbuilding</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Spain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Standards</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>step and touch potentials</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>step potentials upper bound</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>supply chain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>surface quality</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sustainability metrics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sustainable lubrication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Sustainable Manufacturing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>swaging</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>technological and industrial heritage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thrust force</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Titanium alloys</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>traceability</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>uncertainty</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Verification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>waterjet</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wear</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>This book derives from the Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019) that has been launched as a joint issue of the journals Materials and Applied Sciences. The 29 contributions published in this Special Issue of Materials present cutting-edge advances in the field of manufacturing engineering focusing on additive manufacturing and 3D printing; advances and innovations in manufacturing processes; sustainable and green manufacturing; manufacturing of new materials; metrology and quality in manufacturing; industry 4.0; design, modeling, and simulation in manufacturing engineering; and manufacturing engineering and society. Among them, the topic "Additive Manufacturing and 3D Printing" has attracted a large number of contributions in this journal due to its widespread popularity and potential.<br/><br/>Listed by <a href="https://unglue.it/work/492309/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2020</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/466096/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.456665.618006</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>618006</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783039281626</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Sports Materials</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Thomas Allen</PersonName><PersonNameInverted>Allen, Thomas</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Leon Foster</PersonName><PersonNameInverted>Foster, Leon</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Martin Strangwood</PersonName><PersonNameInverted>Strangwood, Martin</PersonNameInverted></Contributor><Contributor><SequenceNumber>4</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>JamesWebster</PersonName><PersonNameInverted>JamesWebster</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>additive 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ratio</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polymer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Protection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>protective equipment</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quick-dry yarn</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rate dependence</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>robot</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Rubber</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>shaft</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>shockpad</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>slope of grain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sport</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sports safety</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sportswear textiles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain propagation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>strain rate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Tennis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Textiles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>torsion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Wood</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Advances in materials are crucial to the development of sports equipment, from tennis rackets to skis to running shoes. Materials-driven improvements in equipment have helped athletes perform better, while enhancing safety and making sport more accessible and enjoyable. This book brings together a collection of 10 papers on the topic of sports materials, as published in a Special Issue of Applied Sciences. The papers within this book cover a range of sports, including golf, tennis, table tennis and baseball. State-of-the-art engineering techniques, such as finite element modelling, impact testing and full-field strain measurement, are applied to help further our understanding of sports equipment mechanics and the role of materials, with a view to improving performance, enhancing safety and facilitating informed regulatory decision making. The book also includes papers that describe emerging and novel materials, including auxetic materials with their negative Poisson’s ratio (fattening when stretched) and knits made of bamboo charcoal. This collection of papers should serve as a useful resource for sports engineers working in both academia and industry, as well as engineering students who are interested in sports equipment and materials.<br/><br/>Listed by <a href="https://unglue.it/work/456665/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://encrypted.google.com/books?id=3P7LDwAAQBAJ&amp;printsec=frontcover&amp;img=1&amp;zoom=1</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>20200124</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription 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elastomers</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sign test</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>skew symmetric eigenmodes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>solitary wave solutions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>symbolic computation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>symmetric and asymmetric distributions</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>symmetric errors</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>symmetric geometry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>symmetrical configurations</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Symmetry</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>test of hypothesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>the generalized Benjamin–Bona–Mahony equation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Thomson effect</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Topology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>two-dimensional finite element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>type III thermal law</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>uniqueness of solution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Vibration</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vibration isolation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>viscoelasticity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>VMD</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>voids</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>volume fraction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Wilcoxon test</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>α-fractional calculus</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Engineering practice requires the use of structures containing identical components or parts, useful from several points of view: less information is needed to describe the system, design is made quicker and easier, components are made faster than a complex assembly, and finally the time to achieve the structure and the cost of manufacturing decreases. Additionally, the subsequent maintenance of the system becomes easier and cheaper. This Special Issue is dedicated to this kind of mechanical structure, describing the properties and methods of analysis of these structures. Discrete or continuous structures in static and dynamic cases are considered. Theoretical models, mathematical methods, and numerical analyses of the systems, such as the finite element method and experimental methods, are expected to be used in the research. Machine building, automotive, aerospace, and civil engineering are the main areas in which such applications appear, but they are found in most engineering fields.<br/><br/>Listed by <a href="https://unglue.it/work/492399/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing 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Rene</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fahrzeugkomfort</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite Elemente</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Finite 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