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Fundamentals of Materials Science: The Microstructure-Property Relationship Using Metals as Model Systems

Fundamentals of Materials Science: The Microstructure-Property Relationship Using Metals as Model Systems

Authors
Publisher Springer, Berlin
Year
Pages 594
Version hardback
Language English
ISBN 9783642104992
Categories Materials science
Delivery to United States

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Book description

Check out the 2nd, new edition, available here: https://link.springer.com/book/10.1007/978-3-030-60056-3 

This book offers a strong introduction to fundamental concepts on the basis of materials science. It conveys the central issue of materials science, distinguishing it from merely solid state physics and solid state chemistry, namely to develop models that provide the relation between the microstructure and the properties.
The book is meant to be used in the beginning of a materials science and engineering study as well as throughout an entire undergraduate and even graduate study as a solid background against which specialized texts can be studied.  Topics dealt with are "crystallography", "lattice defects", "microstructural analysis", "phase equilibria and transformations" and "mechanical strength". After the basic chapters the coverage of topics occurs to an extent surpassing what can be offered in a freshman's course.

 

About the author
Prof. Mittemeijer is one of the top scientists in materials science, whose perceptiveness and insight have led to important achievements. This book witnesses of his knowledge and panoramic overview and profound understanding of the field. He is a director of the Max Planck Institute for Metals Research in Stuttgart.

Fundamentals of Materials Science: The Microstructure-Property Relationship Using Metals as Model Systems

Table of contents

Introduction.- electronic structure of the atom.- chemical bonding in solids.- crystallography.- the crystal imperfection; lattice defects.- analysis of the microstructure; analysis of lattice imperfections.- phase equilibria.- diffusion.- phase transformations.- recovery, recrystallization and grain growth.- mechanical strength of materials.

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