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Mechanical Properties of Polymeric, Metallic, and Composite Materials

Mechanical Properties of Polymeric, Metallic, and Composite Materials

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There has been significant growth in branches of industry directly related to new materials, such as metals, polymers, and composite materials. Considering the increase in material costs, it has become exceedingly important to produce lightweight constructions through the use of certified materials with appropriate mechanical properties. Many composite materials, especially in building engineering, are characterized by the use of waste materials, allowing them to meet environmental demands and often also positively affecting the performance (as well as mechanical) properties of the whole construction. A similar phenomenon has been noticed in polymers and metals, with the “ecologically friendly” factor having increasing influence in such materials. The main aim of our Special Issue was to gather novel research results concerning different materials available for all important industries—building engineering, the heavy industry, automotive, aerospace, and medicine. Such a general title has been proposed to also include different manufacturing technologies using various materials—conventional (milling, casting, forming, and turning) and novel (hybrid and additive manufacturing).

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Keywords

  • 20MnCr5 Steel
  • 21 NiCrMo2 steel
  • 316L stainless steel
  • additive manufacturing
  • annual plants
  • cellular structures
  • cement–glass composite bricks
  • ceramic preform
  • ceramic–elastomer composite
  • concrete additives
  • concrete fibers
  • concrete strength tests
  • CuZn37 brass
  • digital image correlation analysis
  • fatigue behaviour
  • fatigue life prediction
  • flake graphene
  • fused filament fabrication
  • gas atomization
  • graphene oxide
  • grease
  • History of engineering & technology
  • hot isostatic pressing
  • hot isostatic pressing (HIP)
  • hybrid additive manufacturing
  • IPCs
  • laser powder bed fusion
  • lattice structures
  • lubricants
  • Machine learning
  • material extrusion
  • Materials science
  • Mechanical engineering
  • Mechanical engineering & materials
  • Mechanical properties
  • PET-G
  • polyamide-based composites
  • polymer–straw boards
  • post-heat treatment
  • powder bed fusion
  • process parameters
  • reduced graphene oxide
  • silane coupling agent
  • Technology, engineering, agriculture
  • Technology: general issues
  • thermoplastic polymers
  • three-point bending
  • threshold effect
  • torsional strength
  • ultrasonic atomization
  • Waste disposal
  • wettability

Links

DOI: 10.3390/books978-3-0365-8071-5

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