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Feature Papers in Materials Simulation and Design
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The title of the current Special Issue, “Feature Papers in Materials Simulation and Design”, has identified the aims of this collection since its opening: the gathering of research works and comprehensive review papers that advance the understanding and prediction of material behavior at different scales, from atomistic to macroscopic, through innovative modeling and simulation.In this context, interdisciplinary researches that tackled challenging and complex material problems where the governing phenomena might span different scales of material behavior, with an emphasis on the development of quantitative approaches to explain and predict experimental observations, have been collected. Similarly, particular attention has been given to homogenization techniques for the evaluation of the mechanical properties of new materials and multi-phase composites. Innovative numerical approaches for the mechanical analysis, highlighting their accuracy, reliability, and stability features, have been also welcomed. Significant space has been also given to advanced and sustainable technologies. From the aforementioned topics, it is evident that this Special Issue represents the ideal forum for disseminating excellent research findings, as well as sharing innovative ideas in this significant field.Throughout the several months of activity, this Special Issue has been able to attract much interesting research. Its success is proven by the sixteen papers collected and published.
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Keywords
- Acrylonitrile Butadiene Styrene
- additive manufacturing
- anharmonicity
- Artificial Neural Networks
- axial vibration
- base
- Bingham rheology
- biomass compaction
- briquette density
- brittle medium
- bumper beam
- cementitious materials
- cohesive law
- composite laminate
- compressibility
- computational fluid dynamics
- die height
- dynamic mechanical properties
- energy absorption
- FEM
- Finite element method
- Fourier series
- Fracture
- fused deposition modeling
- geometric structure of the surface
- graphene oxide
- green composite
- high-pressure water jet
- high-pressure water-ice jet
- High-Throughput Screening
- History of engineering & technology
- Kolsky method
- large deformation
- lattice structures
- layering
- light-harvesting
- logging residues
- Mechanical engineering
- mode-II delamination
- morphological structure
- n/a
- nanocomposite
- natural fibers
- nonlinear hyperelastic material
- nonlocal elasticity
- Numerical methods
- numerical modeling
- Numerical Simulation
- OpenFOAM
- paint coating
- particle swarm optimization
- pentagon-based 2D material
- photocatalysis
- photoferroics
- porosity
- pumping
- R-curve
- relaxation coefficient
- Reliability
- renovation
- Ruddlesden-Popper perovskites
- scale opening mechanics
- seed extraction
- semi-analytical polynomial method
- short-fiber-reinforced
- strength
- stress growth rate
- surface efficiency of the process
- Technology, engineering, agriculture
- Technology: general issues
- temperature
- thermal buckling analysis
- thermal conductivity
- thermoelectric properties
- thin shells
- thin-walled
- TPU
- tungsten trioxide
- variable-stiffness structures
- viscoelasticity
- water splitting
- zirconia ceramics
Links
DOI: 10.3390/books978-3-0365-7576-6Editions