Fundamentals of Multiscale Modeling of Structural Materials 1st Edition

Capture the next breakthrough in materials engineering with Fundamentals of Multiscale Modeling of Structural Materials, 1st Edition by Wenjie Xia and Luis Ruiz Pestana. This authoritative guide unlocks the principles and computational strategies that connect atomic-scale phenomena to macroscopic structural behavior—essential reading for anyone working at the intersection of materials science and engineering.

Dive into a clear, well-organized presentation of multiscale theory and practice: from atomistic simulation and molecular dynamics to continuum mechanics, homogenization, and finite-element approaches. The authors balance mathematical rigor with practical insight, illustrating how microstructure drives mechanical properties and showing how predictive models are built, validated, and applied to metals, ceramics, and composite systems.

Designed for graduate students, researchers, and practicing engineers worldwide, this book emphasizes real-world applications and problem-solving techniques used in aerospace, civil, and mechanical engineering. Expect step-by-step derivations, illustrative examples, and guidance on implementing multiscale frameworks in research and industry settings—making complex concepts accessible without sacrificing depth.

Whether you’re preparing coursework, developing computational tools, or advancing materials design, this volume is an indispensable reference that elevates your modeling capabilities. Ideal for readers across North America, Europe, and Asia, it speaks directly to the global community tackling advanced structural-material challenges.

Add Fundamentals of Multiscale Modeling of Structural Materials by Wenjie Xia and Luis Ruiz Pestana to your professional library—equip yourself with the methods and insights needed to predict, optimize, and innovate in materials engineering.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.