Handbook of Peridynamic Modeling (Advances in Applied Mathematics)

Book Details

• Author: Florin Bobaru

• Publisher: CRC Press

• Edition: 1st Edition

• Binding: Hardcover

• Number of Pages: 548

• Release Date: 25-10-2016

• ISBN: 9781482230437

• Package Dimensions: 9.4 x 6.2 x 1.4 inches

• Languages: English

About the Book

The Handbook of Peridynamic Modeling of Failure and Damage provides a comprehensive overview of peridynamics, an innovative approach to continuum mechanics that introduces a fundamental shift in how materials are modeled under stress and strain. Unlike traditional methods, which rely on differential equations and localized interactions, peridynamics uses integral formulations to describe material behavior, enabling more accurate simulations of fracture and damage in complex materials.

Key Features:

• Peridynamic Theory: The book focuses on peridynamic modeling, a revolutionary concept that allows for a more flexible and accurate representation of crack propagation and failure, especially in brittle, quasi-brittle, and ductile materials.

• Autonomous Damage and Fracture Modeling: One of the standout features of peridynamics is its ability to autonomously transition between continuous damage and discrete fracture, providing a more consistent mathematical framework for modeling the various stages of material failure.

• Long-Range Forces and Multiscale Coupling: Peridynamics extends classical mechanics by including long-range forces and enabling multiscale coupling, which is crucial for modeling complex materials and systems.

• Practical Applications: This book is ideal for researchers, engineers, and students interested in fracture mechanics, materials science, and computational mechanics. It offers a detailed approach to modeling material failure, crack propagation, and damage, particularly in materials subjected to real-world loading conditions.

Relevance:

This handbook fills a critical gap in materials science and engineering literature by providing a detailed introduction to peridynamics, a method that has become increasingly important for simulating damage and failure in materials that exhibit complex fracture behavior. Whether you're involved in research, simulation, or engineering applications, this book provides the knowledge needed to adopt and implement peridynamic methods in your work.