Metal Forming: Formability, Simulation, and Tool Design focuses on metal formability, finite element modeling, and tool design, providing readers with an integrated overview of the theory, experimentation and practice of metal forming. The book includes formability and finite element topics, including insights on plastic instability, necking, nucleation and coalescence of voids.� Chapters discuss the finite element method, including its accuracy, reliability and validity and finite element flow formulation, helping readers understand finite element formulations, iterative solution methods, friction and contact between objects, and other factors. The book's final sections discuss tool design for cold, warm and hot forming processes.
Examples of tools, design guidelines, and information related to tool materials, lubricants, finishes, and tool failure are included as well.
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Table of Contents
1. Introduction2. Formability3. Finite element simulation: A user's perspective4. Finite element flow formulation5. Introduction to the finite element solid formulation6. Tool design
AppendicesA. Algebraic decomposition of the stress triaxialityB. Large elastic-plastic and rigid-plastic deformationsC. Mathematics for continuum mechanicsD. Force increment ratio that is necessary for an elastic element to yieldE. Basic cold forging processesF. Calculation of deflections and stress distributions in the die core and stress ringsG. MATLAB computer programH. Fit recommendations
