ASM Handbook Volume 22B: Metals Process Simulation

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ISBN: 9781615030057

Publisher: ASM International

Author: ASM International

Binding: Hardbound

Published: 2010

Number of Pages: 7000

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Description

This Handbook provides insight into the integration of modeling for simulation of manufacturing processing. The metals industry is moving toward an integrated computational materials engineering approach (ICME). This provides engineers with accurate predictions of material and process behavior to avoid or reduce costly trial-by-error and prototyping methods of development. The table of content illustrates the depth and berth of the processes addressed. The rate of change within this area of engineering has continued to increase with increasing industrial benefits from the use of such engineering tools, and the reduced cost and increased speed of computing systems required to perform the extensive model calculations. This book serves as a reference to these developments.
This Volume joins the companion, Volume 22A, Fundamentals of Modeling for Metals Processing to provide a complete authoritative reference for the modeling practicioner, or the student or engineer beginning their quest of information.

Input Data for Simulations –Flow Stress Measurements, Thermophysical Properties of Solids and Liquids, Thermophyscial Properties (and Their Determination) for Solidification Models Grain Boundary Energy and Mobility, Crystallographic Texture, 3D Microstructure Representation, Solid Models for Simulation
Simulation of Deformation Processes – FEM, Slab, and Upper Bound Methods for Deformation Processes, Forging,Bending and Forming Processes, Simulation and Modeling of Powder Metallurgy Processes, Press and Sinter P/M, Modeling of HIP, M/P Injection Molding, Compaction Modeling, Process Modeling of Higher-Density Consolidation

Simulation of Solidification – Computational Analysis of the VAR and ESR Processes, Porosity during Solidification, Simulation of Casting and Solidification Processes, Cellular-automata Models for Solidification Processes, Solidification Heat Transfer Simulations, Simulation of Fluid Flow and Heat/Mass Transfer
Modeling of Solidification Microstructures, Transport Phenomena for during Solidification Processes, Microstructure and texture formation during solidification

Simulation of Machining Processes – Shearing and Blanking, Orthogonal cutting/chip formation (Includes Simulation of machining residual stresses),
Machining Distortion in Nickel-Base Disks

Simulation of Joining Operations – Integrated Weld Modeling, Simulation of Joining Operations, Rotational Welding, FSW, Diffusion Bonding, Additive Manufacturing Processes

Simulation of Heating and Heat Treatment – Computerized Properties Prediction and Technology Planning in Heat Treatment of Steels, Heating and Heat-Flow Simulation, Quenching, Residual Stress Formation, and Quench Cracking, Stress-Relief, Induction Heating, Surface Treatments, Shot-peening Processes
Induction Heat Treatment, Diffusion Coating Techniques

Simulation of Phase Diagrams and Transformations – Application of Thermodynamic and Material Property Modeling to Process Simulation of Industrial Alloys, Commercial Alloy Phase Diagrams and Industrial Applications,Quantitative Prediction of Transformation Hardening in Steels

Integration of Modeling and Simulation in Design – Design Optimization Methodologies, Propagation of Errors and Managing Uncertainty
Glossary
Index