Characterizations, Mechanical Properties and Constitutive Modeling of Advanced Materials

doi:10.3390/books978-3-7258-1915-7

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Characterizations, Mechanical Properties and Constitutive Modeling of Advanced Materials

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August 2024

306 pages

ISBN978-3-7258-1916-4 (Hardback)
ISBN978-3-7258-1915-7 (PDF)

https://doi.org/10.3390/books978-3-7258-1915-7 (registering)

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This is a Reprint of the Special Issue Characterizations, Mechanical Properties and Constitutive Modeling of Advanced Materials that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This Special Issue aims to highlight the latest advancements in the critical areas of characterizations, mechanical properties, and constitutive modeling of advanced materials, integrating both experimental and theoretical perspectives. This collection of works spans a diverse range of topics, from the characterization of cutting-edge materials like nanomaterials and biomaterials to the detailed investigation of their mechanical properties under various conditions. Additionally, it features the development of sophisticated constitutive models that enhance our understanding and prediction of material behavior. By bringing together pioneering research and insights, this Special Issue aspires to contribute significantly to the advancement of materials science and engineering.

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Hardback

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Keywords

sheet metal; yield criterion; strength differential effect; plastic anisotropy; evolving plastic behavior; foam-filled corrugated sandwich cylindrical shells; coupling strengthening effect; energy absorption; theoretical model; paper strength; digital image analysis; finite element method; Hill’s anisotropy potential theory; rheology; plastometry; radial-shear rolling; severe plastic deformation; FEM-simulation; ingots; casting structure; fine-grained structure; asymptotic homogenization; cartesian mesh; voxel mesh; non-orthogonal periodic basis; lattice material; Bravais lattice symmetry; apple skin; hyperelasticity; digital image correlation; uniaxial tensile loading; finite element analysis; ductile fracture; DF2016 criterion; stress triaxiality; Lode parameter; advanced high-strength steel; sheet metal forming; ZK61M magnesium alloy; hardening behavior; anisotropy; yield function; plastic evolution; MICP; aeolian sand; wind erosion resistance; model test; solidified mechanism; energy absorption; finite element analysis; dynamic compression; 316L stainless steel; truss lattice materials; failure analysis; polymers and plastics; Johnson–Cook constitutive; numerical simulation; inversion method; critical saturation response; cylindrical shells; long-duration blast loading; inherent characteristics; sandwich structures; magnetism; magnetostrictive strain; magneto-mechanical effect; ferromagnets; composite processing; epoxy prepreg; viscoelastic modulus; curing strain; thermoplastics; crystallization; modeling; spherulites; EICP; standard sand; earth-rock dam; erosion resistance; shear strength

Characterizations, Mechanical Properties and Constitutive Modeling of Advanced Materials

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