Microstructure Evolution in Metal Forming Processes

"...gives a rounded picture of the current state of the science...comprehensive and up-to-date, with practical examples of application and a wealth of references."--International Journal of Environmental Studies, Vol 70, Issue 1-13

This book should find a place on the bookshelf of every materials department library 10/10., Materials World

Jianguo Lin is Professor of Mechanics of Materials in the Department of Mechanical Engineering at Imperial College London, UK. Daniel Balint is a Lecturer in the Department of Mechanical Engineering at Imperial College London, UK. Maciej Pietrzyk is Professor of Metallurgy and Materials Science and Head of the Department of Applied Computational Science and Modelling at the AGH University of Science and Technology, Poland.

Part 1 General principles: Understanding and controlling microstructural evolution in metal forming: an overview; Techniques for modelling microstructure in metal forming processes; Modelling techniques for optimising metal forming processes; Recrystallisation and grain growth in hot working of steels; Severe plastic deformation for grain refinement and enhancement of properties. Part 2 Microstructure evolution in the processing of steel: Modelling phase transformations in steel; Determining unified constitutive equations for modelling hot forming of steel; Modelling phase transformations in hot stamping and cold die quenching of steels; Modelling microstructure evolution and work hardening in conventional and ultrafine-grained microalloyed steels. Part 3 Microstructure evolution in the processing of other metals: Microstructure control in creep-age forming of aluminium panels; Microstructure control in processing nickel, titanium and other special alloys.