Books by Keyword: IF Steel

Books

Edited by: Paul Van Houtte and Leo Kestens
Online since: September 2005
Description: To the materials science community, Texture is an important property which describes the relative orientations of the various material elements which constitute the microstructure. These elements are usually the crystalline grains; each with a different orientation of its crystal lattice. However, morphological textures, such as the arrangement of fibers in a composite material, also have to be considered. In rare cases, the texture is random; with all possible orientations being equally represented in the material. But, usually, processing of the material has caused the texture to become non-random; with a consequent anisotropy of the material properties. Thus, not only metallurgists and materials scientists take an interest in textures, but also physicists, mathematicians, geologists, mechanical engineers and others.

Edited by: Dong Nyung Lee
Online since: August 2002
Description: Texture is a fundamental material characteristic which results from the microstructural evolution that takes place during various processes, including the thermomechanical deformation of materials. Therefore, texture-related phenomena will continue to be of great importance, because of their scientific interest as well as their effect upon industrial applications, in the 21st century.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
Edited by: R.A. Schwarzer
Online since: February 1998
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Preferred crystal orientations and their statistical distribution – the polycrystalline 'texture' – are of major scientific interest and are of great importance in a wide range of industrial applications. The aim of this book is to monitor the rapid progress made in this field during the last few years.
Texture analysis has expanded beyond its traditional domain of cubic metals and alloys to encompass virtually all crystalline, and even partially crystalline, materials - including natural as well as man-made ones such as geological samples, minerals, ceramics, polymers, composites, low-symmetry materials, thin films and layers. The main objectives are to obtain a better understanding and control of the properties of anisotropic materials (as related to bulk, grain or grain boundary structures), recrystallization and grain growth, deformation textures, and correlations between internal stress, composition and texture.
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