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[资源] 合金及其微观组织设计（Alloy and Microstructural Design）

简介：
The editors view this book in several ways—first as a reference work
for the practicing engineer to use as a guide in translating theory into
design and practice, and second, as a text for an applications course
which builds upon prior courses in physical and mechanical metallurgy,
tying together theory and applications.
We have drawn upon the expertise of distinguished scientists from
many materials areas. Chapter II, contributed by S. M. Copley and J. C.
Williams, and Chapter III, by N. S. Stoloff, introduce the range of microstructures
and alloy systems covered in the subsequent chapters. In
addition, these first chapters speak to alloy design to prevent plastic
deformation. The next three chapters extend the deformation modes
considered. Chapter IV, by J. K. Tien, M. Malu, and S. Purushothaman,
covers alloy design for creep resistance; Chapter V, by J. C. Freche,
stress rupture resistance; Chapter VI, by C. Laird, fatigue resistance;
and Chapter VII, by V. F. Zackay and E. R. Parker, fracture resistance.
Chapter VII also discusses recent alloy developments in tough ferrous
alloys.
Chapters VIII-X comprise our environment-property block of contributions.
Chapter VIII, by D. J. Duquette, is on alloy design to minimize
aqueous and stress corrosion. In Chapter IX, I. M. Bernstein and A. W.
Thompson consider the related subject of hydrogen embrittlement.
And in Chapter X, the team of F. S. Pettit, C. S. Giggins, J. A. Goebel,
and E.J. Felten takes on the very complicated subject of oxidation and
corrosion resistance at high temperatures. The final chapter, by C. Y.
Li, F. V. Ellis, and F. H. Huang, is a very much revived look on the mechanical
equations of state and their potential applications to alloy design.
目录：
Table of contents :
Content:
MATERIALS SCIENCE AND TECHNOLOGY, Page ii
Front Matter, Page iii
Copyright, Page iv
LIST OF CONTRIBUTORS, Pages ix-x
PREFACE, Pages xi-xii
Chapter I - INTRODUCTION, Pages 1-2
Chapter II - HIGH-STRENGTH NONFERROUS ALLOYS, Pages 3-63, Stephen M. Copley, James C. Williams
Chapter III - COMPOSITE STRENGTHENING, Pages 65-117, Norman S. Stoloff
Chapter IV - CREEP RESISTANCE, Pages 119-143, John K. Tien, Mahendra Malu, Sampath Purushothaman
Chapter V - STRESS RUPTURE RESISTANCE, Pages 145-173, John C. Freche
Chapter VI - FATIGUE RESISTANCE, Pages 175-212, Campbell Laird
Chapter VII - FRACTURE TOUGHNESS, Pages 213-250, Victor F. Zackay, Earl R. Parker
Chapter VIII - AQUEOUS AND STRESS CORROSION RESISTANCE, Pages 251-301, David J. Duquette
Chapter IX - RESISTING HYDROGEN EMBRITTLEMENT, Pages 303-347, I.M. Bernstein, Anthony W. Thompson
Chapter X - OXIDATION AND HOT CORROSION RESISTANCE, Pages 349-402, F.S. Pettit, C.S. Giggins, J.A. Goebel, E.J. Felten
Chapter XI - MECHANICAL EQUATIONS OF STATE, Pages 403-424, Che-Yu Li, F.V. Ellis, F.H. Huang
INDEX, Pages 425-429

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