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《Steels: Microstructure and properties》H.K.D.H.B. and R.W.K.H. 2006

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发表于 2010-1-29 21:42:10 | 显示全部楼层 |阅读模式
北京中仪天信科技有限公司
书名:《Steels:Microstructure and properties, 3rd Edition》
作者: H.K.D.H.Bhadeshia and R.W.K.Honeycombe
出版年份:September 1, 2006
出版社:Butterworth-Heinemann
ISBN-10: 0750680849
ISBN-13: 978-0750680844
原书定价:$108
内容简介:Steels represent the most widely-used metallic alloy, possessing a wide range of microstructures and mechanical properties. By examining the mechanical properties of steels in conjunction with microstructure this book provides a valuable description of the development and behaviour of these materials - the very foundation of their widespread use. Updated throughout and including new chapters on nanostructured steels, and new alloys and technologies for the energy and automobile industries, the book is clearly written and illustrated, with extensive bibliographies and real-life examples. An essential reference, both compact and readily comprehensive, for metallurgists and engineers in both industry and academia.
Covers the microstructure, mechanical behaviour and properties of steels, the most widely-used metallic alloy
· Thoroughly updated with new materials and technologies, plus a new accompanying set of exercises and solutions for teaching use
· Respected author team who bring their wide experience to students and professionals
作者简介:By Harry Bhadeshia, Professor of Physical Metallurgy, University of Cambridge, UK, and Adjunct Professor, Graduate Institute of Ferrous Technology, POSTECH, South Korea; and Robert Honeycombe, Emeritus Professor of Metallurgy, University of Cambridge, UK
专业书评:
The complete text and reference on the microstructure and properties of steels

Steel has the wonderful ability to adapt to changing requirements. It is no wonder that it has seen off challenges from many other materials, and thrives today as arguably the most successful of all engineering materials.

By examining the properties of iron and its alloys in conjunction with microstructure, this book provides a valuable guide to the development and behaviour of these metals. Updated throughout, this edition includes new material on nanostructured steels, new alloys and technologies for the energy and automobile industries, including TRIP-assisted alloys and the latest impressive creep and heat-resistant steels for increased power generation efficiency.

. Covers the microstructure, mechanical behaviour and properties of steels, the most widely-used metallic alloy
. Thoroughly updated with new materials and technologies, plus a new accompanying set of exercises and solutions for teaching use
. Respected author team who bring their wide experience to students and professionals

Steels is an essential reference for metallurgists, physicists and engineers in both industry and academia.

目录:
CONTENTS
Preface to the first edition ix
Preface to the second edition x
Preface to the third edition xi
1 Iron and its interstitial solid solutions 1
1.1 Introduction 1
1.2 The allotropes of pure iron 2
1.3 The phase transformation: α- and γ-iron 4
1.4 Carbon and nitrogen in solution in α- and γ-iron 8
1.5 Some practical aspects 15
Further reading 16
2 The strengthening of iron and its alloys 17
2.1 Introduction 17
2.2 Work hardening 18
2.3 Solid solution strengthening by interstitials 20
2.4 Substitutional solid solution strengthening of iron 27
2.5 Grain size 27
2.6 Dispersion strengthening 32
2.7 An overall view 33
2.8 Some practical aspects 34
2.9 Limits to strength 35
Further reading 38
3 The iron–carbon equilibrium diagram and plain carbon steels 39
3.1 The iron–carbon equilibrium diagram 39
3.2 The austenite–ferrite transformation 42
3.3 The austenite–cementite transformation 44
3.4 The kinetics of the γ → α transformation 45
3.5 The austenite–pearlite reaction 53
3.6 Ferrite–pearlite steels 67
Further reading 69
4 The effects of alloying elements on iron–carbon alloys 71
4.1 The γ- and α-phase fields 71
4.2 The distribution of alloying elements in steels 74
4.3 The effect of alloying elements on the kinetics of the
γ/α transformation 77
4.4 Structural changes resulting from alloying additions 84
4.5 Transformation diagrams for alloy steels 91
Further reading 92
5 Formation of martensite 95
5.1 Introduction 95
5.2 General characteristics 95
5.3 The crystal structure of martensite 100
5.4 The crystallography of martensitic transformations 103
5.5 The morphology of ferrous martensites 106
5.6 Kinetics of transformation to martensite 112
5.7 The strength of martensite 120
5.8 Shape memory effect 126
Further reading 127
6 The bainite reaction 129
6.1 Introduction 129
6.2 Upper bainite (temperature range 550–400◦C) 129
6.3 Lower bainite (temperature range 400–250◦C) 132
6.4 The shape change 135
6.5 Carbon in bainite 135
6.6 Kinetics 139
6.7 The transition from upper to lower bainite 143
6.8 Granular bainite 144
6.9 Tempering of bainite 145
6.10 Role of alloying elements 146
6.11 Use of bainitic steels 147
6.12 Nanostructured bainite 152
Further reading 154
7 Acicular ferrite 155
7.1 Introduction 155
7.2 Microstructure 155
7.3 Mechanism of transformation 157
7.4 The inclusions as heterogeneous nucleation sites 161
7.5 Nucleation of acicular ferrite 162
7.6 Summary 164
Further reading 164
8 The heat treatment of steels: hardenability 167
8.1 Introduction 167
8.2 Use of TTT and continuous cooling diagrams 168
8.3 Hardenability testing 170
8.4 Effect of grain size and chemical composition
on hardenability 176
8.5 Hardenability and heat treatment 177
8.6 Quenching stresses and quench cracking 179
Further reading 181
9 The tempering of martensite 183
9.1 Introduction 183
9.2 Tempering of plain carbon steels 184
9.3 Mechanical properties of tempered plain carbon steels 190
9.4 Tempering of alloy steels 191
9.5 Maraging steels 207
Further reading 207
10 Thermomechanical treatment of steels 209
10.1 Introduction 209
10.2 Controlled rolling of low-alloy steels 210
10.3 Dual-phase steels 220
10.4 TRIP-assisted steels 223
10.5 TWIP steels 229
10.6 Industrial steels subjected to thermomechanical treatments 231
Further reading 233
11 The embrittlement and fracture of steels 235
11.1 Introduction 235
11.2 Cleavage fracture in iron and steel 235
11.3 Factors influencing the onset of cleavage fracture 237
11.4 Criterion for the ductile/brittle transition 240
11.5 Practical aspects of brittle fracture 243
11.6 Ductile or fibrous fracture 245
11.7 Intergranular embrittlement 252
Further reading 258
12 Stainless steel 259
12.1 Introduction 259
12.2 The iron–chromium–nickel system 259
12.3 Chromium carbide in Cr–Ni austenitic steels 264
12.4 Precipitation of niobium and titanium carbides 267
12.5 Nitrides in austenitic steels 270
12.6 Intermetallic precipitation in austenite 270
12.7 Austenitic steels in practical applications 273
12.8 Duplex and ferritic stainless steels 274
12.9 Mechanically alloyed stainless steels 278
12.10 The transformation of metastable austenite 281
Further reading 286
13 Weld microstructures 287
13.1 Introduction 287
13.2 The fusion zone 287
13.3 The HAZ 298
Further reading 306
14 Modelling of microstructure and properties 307
14.1 Introduction 307
14.2 Example 1: alloy design – high-strength bainitic steel 309
14.3 Example 2: mechanical properties of mixed microstructures 315
14.4 Methods 321
14.5 Kinetics 326
14.6 Finite element method 329
14.7 Neural networks 330
14.8 Defining characteristics of models 333
Further reading 334
Index 335

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