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Comprehensive mechanics of materials /

Comprehensive Mechanics of Materials, 4-vol set, provides a trove of practical information about and insight into the properties, performances, and applications of a vast array of commonly used materials. It equips readers with a clear understanding of the main mechanisms of deformation, damage, and...

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Bibliographic Details
Corporate Author: ScienceDirect (Online service)
Other Authors: Silberschmidt, Vadim V. (Editor)
Format: eBook
Language:English
Published: Amsterdam : Elsevier, 2024.
Subjects:
Materials > Mechanical properties.
Matériaux > Propriétés mécaniques.
Electronic books.
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • E9780323906463v1_WEB
  • Cover
  • COMPREHENSIVE MECHANICS OF MATERIALS
  • CONTENTS OF VOLUME 1
  • EDITOR-IN-CHIEF BIOGRAPHY
  • LIST OF CONTRIBUTORS FOR VOLUME 1
  • Introduction to Mechanics of Materials
  • References
  • Homogenization of High Contrast Media-From Local Physics to Generalized Continua
  • Key Points
  • Introduction
  • Overview of Homogenization Method of Periodic Media
  • Contrasted Composites With Inner Resonance Effect
  • Strain-Gradient Model of Reinforced Media
  • Reticulated Media: Geometrical Contrast
  • The three transverse mechanisms of
  • Highly Contrasted Stratified Plates
  • Features of High-Contrast Stratified Plates
  • Contrasted Porous Media
  • Synthesis and Perspectives
  • References
  • Fundamentals of Peridynamics
  • Key Points
  • Introduction
  • Peridynamics
  • Numerical Implementation
  • Conclusions
  • References
  • Damage-Elasto-Plastic Spring for Micro-Structured Materials Derived With a Hemivariational Approach: Applied to Ultra...
  • Key Points
  • Introduction
  • Definition of the Action Functional and Damage and Plastic Kinematic Descriptors
  • Kinematic Restrictions of Motion
  • The Hemi-Variational Principle
  • The Elastic Internal and External Energies
  • The Dissipation Energy
  • Application of the Hemivariational Principle for the Equivalent UHPC Spring Model
  • Numerical Solution of the Equivalent Spring Model
  • Conclusion and Outlook
  • References
  • A Variational Approach to Address the Problem of Planar Nonlinear Beams
  • Key Points
  • Introduction
  • Nonlinear Shear-Deformable Planar Beams
  • Limit Cases
  • Generalization of Shear-Deformable Beam Models: A Higher-Order Shear Deformation Theory
  • Dynamics of Beams
  • Conclusion
  • References
  • Multi-Scale Approaches to Micro-Structured Materials Modeling
  • Key Points
  • Introduction
  • Mechanical Metamaterials
  • Granular and Particulate Media
  • Biological Tissues
  • Conclusion and Outlooks
  • References
  • Fully Coupled Thermomechanical Modeling of Shape Memory Alloys: Further Applications to Analyze Fatigue, and...
  • Key Points
  • Introduction
  • One-Dimensional Model
  • Fatigue Analysis
  • Transformation-Induced Creep and Stress Relaxation
  • Finite Element Implementation
  • Further Developments to Address the Localization Phenomena
  • Conclusions
  • Acknowledgments
  • Appendix A
  • Appendix B
  • Appendix C
  • References
  • Linear Elastic Fracture Mechanics
  • Key Points
  • Introduction
  • Conclusions
  • References
  • Very High Cycle Fatigue (VHCF) of Materials: An Overview
  • Key Points
  • Introduction
  • VHCF Tests and Testing Equipment
  • VHCF Crack Formation Mechanisms
  • Design Against VHCF Failures: Statistical Modeling
  • Size-effect in VHCF
  • Very High Cycle Fatigue at Elevated Temperature
  • Challenges of High-Temperature Ultrasonic Fatigue Tests
  • Summary
  • References
  • Mechanics of Materials at High Temperature
  • Key Points
  • Introduction