Dr. Mark Horstemeyer’s book on “Integrated Computational Materials Engineering (ICME) for Metals” is out now from Wiley Press.

With the recent recent confluence of smaller desktop computers with enhanced computing power coupled with the emergence of physically-based material models, the clear trend in modeling and simulation is to integrate more knowledge into materials processing and product performance. This book is a comprehensive overview of the methods of Integrated Computational Materials Engineering (ICME), and provides case studies to demonstrate the multiscale modeling methodology and can be used in a pedagogical setting. This book demonstrates the methodologies and gives successful examples to gain the confidence of the new paradigm for design. It captures important constitutive relations and the material constants for those relations for different materials in a single collection. A new simulation-based design paradigm is presented by employing a heirarchical multiscale modeling methodology for optimizing load-bearing structures. The methodology integrates material models, structure-property experiments, and simulations starting at the quantum level in the spirit of the fairly new idea of Integrated Computational Materials Engineering (ICME). At the structural level, heterogeneous microstructures are embedded in the finite element analysis. Because these microstructures are included, the paradigm shift from safety factors to predicting failure is the fundamental message of this book.