The Tensile Test and Basic Material Behavior.

Tensors, Matrices, Notation.

Stress.

Strain.

Standard Mechanical Principles.

Elasticity.

Plasticity.

Crystal–Based Plasticity.

Friction.

Classical Forming Analysis.

Index.

Robert H. Wagoner, NAE, FASM, brings both a teaching perspective (Professor, Department of Materials Science and Engineering, Ohio State University) and industrial experience (Staff Research Scientist, G. M. Research Laboratories) to his work in sheet metal forming and simulation. Developer of the Sheet family of computer programs in use at several companies and universities, Professor Wagoner has received extensive recognition for research achievements, including the Mathewson Gold Medal, Raymond Memorial Award, and Hardy Gold Medal. He has more than 150 research articles in print. Professor Wagoner is Director of the Center for Advanced Materials and Manufacturing of Automotive Components (CAMMAC), and is co–organizer of Numisheet 96.

Jean–Loup Chenot is Director of CEMEF, the Centre de Mise en Forme des Materiaux, a research and teaching facility of the School of Mines of Paris. CEMEF is one of Europe s premier institutes devoted to materials forming and, with close industrial cooperation, is the developer of the Forge family of programs. Winner of the Doistau–Blutel Prize of the French Academy of Sciences, the Chevalier de l Ordre National du Mèrite, the Chevalier de l Ordre des Palmes Academiques, and Organizer of Numiform 92, Dr. Chenot has presented over 100 international or keynote lectures and has published over 125 articles on the subject of numerical simulation of industrial forming operations, particularly bulk forming.

This text provides the fundamental background in mechanics, materials, and numerical analysis necessary to understand the principles of metal forming and its analysis. Using a unified approach, the authors bridge traditional gaps between forming practitioners, manufacturing engineers, materials scientists, and mechanicians, to give readers a complete picture of the dynamic field of modern metal forming. Everything You need to Bridge the Gap Between Theory, Application, and Numerical Techniques Now you can see how theory, applications, and numerical techniques are intimately linked with a text that balances all three! Numerous exercises and three kinds of problems: Proficiency, Depth, and Numerical help readers fully grasp the theory, application and modern computing techniques in metal forming. Concept and Understanding The authors informal writing style, emphasis on physical intuition, and numerous exercises combine to take the reader from intangible concept to practical understanding. Learning and the Real World An emphasis on physical intuition, leads to a deeper understanding of the principles underlying advanced numerical treatments. Plus, alternative forms of mathematical notation familiarize students with real–world practice.