Nanostructured metals and alloys: processing, microstructure, mechanical properties and applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Woodhead
2011
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXXV, 803 S. Ill., graph. Darst. |
| ISBN: | 9781845696702 |
Internformat
MARC
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Datensatz im Suchindex
| _version_ | 1804145680679174144 |
|---|---|
| adam_text | Titel: Nanostructured metals and alloys
Autor: Whang, Sung H.
Jahr: 2011
Contents
Contributor contact details xv
Introduction xxi
S.H. Whang, New York University, USA
Part I Processing bulk nanostructured metals and alloys 1
1 Producing bulk nanostructured metals and alloys
by severe plastic deformation (SPD) 3
R.Z. Valiev, Ufa State Aviation Technical University, Russia
1.1 Introduction 3
1.2 The principles of severe plastic deformation (SPD)
processing 4
1.3 New trends in SPD processing for effective grain refinement 8
1.4 Enhanced properties achieved using SPD processing 22
1.5 Innovation potential of bulk nanostructured materials 33
1.6 Conclusions 34
1.7 References 35
2 Bulk nanostructured metals and alloys produced
by accumulative roll-bonding 40
N. Tsuji, Kyoto University, Japan
2.1 Introduction 40
2.2 The principle of accumulative roll-bonding (ARB) 41
2.3 Processing details 42
2.4 Change in microstructures during the process 45
2.5 Mechanical properties of nanostructured metals fabricated
by ARB 53
2.6 Conclusions 57
2.7 References 57
vi Contents
3 Nanocrystalline metals and alloys prepared by
mechanical attrition 59
S. Scudino and J. Eckert, IFW Dresden, Germany
3.1 Introduction 59
3.2 Mechanical attrition 60
3.3 Nanocrystalline phase formation by mechanical attrition 62
3.4 Consolidation of nanocrystalline powders 75
3.5 Conclusion and future trends 80
3.6 Acknowledgements 81
3.7 References 82
4 The processing of nanocrystalline steels by
solid reaction 85
F.G. Caballero and C. Garcia-Mateo, National Center for
Metallurgical Research (CENIM-CSIC), Spain
4.1 Introduction 85
4.2 The finest grain structures in steels 86
4.3 Phase transformation theory: a powerful tool for the
design of advanced steels, from micro to nano 89
4.4 NANOBAIN steel: a material going to extremes 93
4.5 Accelerating the bainite reaction at low temperatures 98
4.6 Characterizing nanocrystalline bainitic steels at the
atomic scale 98
4.7 The mechanical properties of nanocrystalline bainitic steels 107
4.8 Conclusion and future trends 113
4.9 Sources of further information and advice 114
4.10 Acknowledgements 114
4.11 References 114
5 The processing of bulk nanocrystalline metals and
alloys by electrodeposition 118
U. Erb, University of Toronto, Canada and G. Palumbo and
J.L. McCrea, Integran Technologies Inc., Canada
5.1 Introduction 118
5.2 Electrodeposition methods 119
5.3 Examples of nanocrystalline metals and alloys prepared by
electrodeposition 128
5.4 Mechanical properties of nanocrystalline electrodeposits 136
5.5 Corrosion properties of nanocrystalline electrodeposits 141
5.6 Other properties of nanocrystalline electrodeposits 143
5.7 Applications 145
5.8 Acknowledgements 146
5.9 References 146
Contents vii
6 Bulk nanocrystalline and nanocomposite alloys
produced from amorphous phase 152
A. Inoue and D.V. Louzguine, Tohoku University, Japan
6.1 Introduction 152
6.2 The formation of bulk metallic glassy alloys 153
6.3 The formation of a nanostructure by crystallization of the glassy
phase, by deformation or directly from the melt on casting 159
6.4 The formation of nano-quasicrystals 165
6.5 The mechanical properties of nanocomposite alloys 167
6.6 The magnetic properties of nanocomposite alloys 169
6.7 Conclusions 172
6.8 References 173
7 Severe plastic deformation and the production of
nanostructured alloys by machining 178
J.B. Mann, M4 Sciences, USA, S. Chandrasekar, W.D. Compton,
and K.P. Trumble, Purdue University, USA, C. Saldana, and
S. Swaminathan, GE John F. Welch Technology Center, India,
W. Moscoso and T.G. Murthy, Indian Institute of Science, India
7.1 Introduction 178
7.2 The mechanics of severe plastic deformation (SPD)
in machining 179
7.3 A study of microstructure refinement 189
7.4 Bulk forms with ultrafine-grained (UFG) microstructure 196
7.5 Nanostructured particulate 200
7.6 Surface nanostructuring 205
7.7 Conclusions 207
7.8 Acknowledgements 207
7.9 References 208
Part II Microstructure 211
8 Deformation structures including twins in
nanograined pure metals 213
K. Hattar, Sandia National Laboratories, USA
8.1 Introduction 213
8.2 Classical defect structures in nanograined metals 214
8.3 Classical defect structures absent in nanograined metals 221
8.4 Novel defect structures in nanograined metals 224
8.5 The effect of initial microstructure on deformation structures 230
8.6 Future trends 236
8.7 Acknowledgements 239
8.8 References 239
viii Contents
9 Microstructure and mechanical properties of
nanostructured low-carbon steel prepared by
equal-channel angular pressing 243
Y.G. Ko, Yeungnam University, Republic of Korea, and D.H. Shin,
Hanyang University, Republic of Korea
9.1 Introduction 243
9.2 The microstructural evolution of low-carbon steel (LCS) 244
9.3 The mechanical response of a nanostructured LCS alloy 261
9.4 Enhanced tensile properties by grain refinement and
microstructural modification 268
9.5 Continuous shear drawing: a new processing method 270
9.6 Conclusion 272
9.7 References 272
10 Characteristic structures and properties of nanostructured
metals prepared by plastic deformation 276
X. Huang, Technical University of Denmark, Denmark
10.1 Introduction 276
10.2 Characteristic microstructures 277
10.3 Hardening by annealing and softening by deformation 286
10.4 Optimisation of microstructure and mechanical properties 289
10.5 Conclusions 290
10.6 Acknowledgements 294
10.7 References 294
Part III Mechanical properties 297
11 Strengthening mechanisms in nanocrystalline metals 299
D.G. Morris, National Center for Metallurgical Research
(CENIM-CSIC), Spain
11.1 Introduction 299
11.2 The deformation of polycrystals; the Hall-Petch model for
strengthening; typical strength and hardness data 300
11.3 Hall-Petch breakdown: a fine grain size limit to models 303
11.4 Hall-Petch breakdown: the importance of defective materials 304
11.5 Alternative deformation mechanisms at very fine grain sizes 307
11.6 Strengthening caused by second-phase particles 314
11.7 Strengthening caused by other factors: solute, order, twin
boundaries 319
11.8 Strengthening mechanisms in materials with ultrafine
microstructure prepared by severe plastic deformation 320
11.9 Conclusion and future trends 324
11.10 References 325
Contents ix
12 Elastic and plastic deformation in nanocrystalline
metals 329
M.Y. Gutkin, Russian Academy of Sciences, Russia
12.1 Introduction 329
12.2 Elastic strains in nanocrystalline metals 330
12.3 Plastic deformation in nanocrystalline metals 337
12.4 Conclusions and future trends 365
12.5 Sources of further information and advice 367
12.6 Acknowledgements 367
12.7 References 367
13 The mechanical properties of multi-scale metallic
materials 375
Y.H. Zhao and E.J. Lavernia, University of California Davis, USA
13.1 Introduction 375
13.2 Mechanical properties of multi-scale metallic materials 383
13.3 Deformation and fracture mechanisms of multi-scale
metallic materials 405
13.4 Future trends 425
13.5 Conclusions 425
13.6 Acknowledgements 426
13.7 References 426
14 Enhanced ductility and its mechanisms in
nanocrystalline metallic materials 430
LA. Ovid ko, Russian Academy of Sciences, Russia
14.1 Introduction 430
14.2 General aspects concerning the tensile ductility of
materials 431
14.3 Plastic flow mechanisms in coarse-grained metallic
polycrystals, ultrafine-grained metals and nanocrystalline
metals with intermediate grains 435
14.4 Plastic flow mechanisms in nanocrystalline metals with
the finest grains 436
14.5 Specific features of crack nucleation and growth processes
in nanocrystalline metallic materials 440
14.6 Enhanced ductility of artifact-free nanocrystalline metals
with narrow grain size distributions 444
14.7 Enhanced ductility of nanocrystalline metals due to twin
deformation and growth twins 446
14.8 Enhanced ductility of nanocrystalline metals due to strain
rate hardening 448
14.9 Enhanced ductility of single-phase nanocrystalline metals
with bimodal structures 449
x Contents
14.10 Enhanced ductility of nanocrystalline metallic composites
with second-phase nanoparticles, dendrite-like inclusions
and carbon nanotubes 451
14.11 Conclusions and future trends 452
14.12 Sources of further information and advice 454
14.13 Acknowledgements 455
14.14 References 455
15 The mechanical behavior of nanostructured metals
based on molecular dynamics computer simulations 459
V.I. Yamakov, National Institute of Aerospace, USA
15.1 Introduction 459
15.2 The structure and properties of grain boundaries in
nanocrystalline (NC) metals by molecular dynamics (MD)
simulation 461
15.3 Deformation mechanisms in nanoscale grains 465
15.4 Grain growth and microstructure evolution in NC metals 472
15.5 Conclusions 476
15.6 Acknowledgement 477
15.7 References 477
16 The surface deformation and mechanical behavior in
nanostructured alloys 481
L.L. Shaw, University of Connecticut, USA
16.1 Introduction 481
16.2 Mechanics aspects during surface severe plastic deformation 482
16.3 Changes in the microstructure and stress states induced by
surface severe plastic deformation 484
16.4 Tensile properties of metals with a nanocrystalline surface
and hardened layer 493
16.5 Fatigue resistance of metals with a nanocrystalline surface
and hardened layer 499
16.6 Wear resistance of metals with a nanocrystalline surface and
hardened layer 501
16.7 Conclusions 502
16.8 Acknowledgements 504
16.9 References 504
17 Fatigue behaviour in nanostructured metals 507
H.W. Hoppel and M. Goken, Friedrich-Alexander University of
Erlangen-Nuremberg, Germany
17.1 Introduction and motivation 507
17.2 General findings on the fatigue behaviour and the fatigue
lives of nanostructured model materials 509
Contents xi
17.3 Light metal alloys 517
17.4 Fatigue behaviour and life of nanostructured steels 532
17.5 Consequences and strategies for optimizing fatigue lives
and cyclic deformation behaviour 534
17.6 References 537
18 Superplastic deformation in nanocrystalline metals
and alloys 542
A. Sergueeva, The Nanosteel Company, USA and A. Mukherjee,
University of California Davis, USA
18.1 Introduction 542
18.2 Theoretical predictions 543
18.3 Superplasticity in nanocrystalline metals and alloys 546
18.4 Specific features of superplasticity in nanocrystalline
materials 568
18.5 Deformation mechanisms 578
18.6 Conclusions 587
18.7 Acknowledgements 590
18.8 References 590
19 Creep and high-temperature deformation in
nanostructured metals and alloys 594
W. Yin, Williams Advanced Materials, USA
19.1 Introduction 594
19.2 Temperature-dependent deformation in fine-grained
pure metals 595
19.3 Creep and high-temperature deformation in
nanostructured alloys 601
19.4 Deformation mechanisms and modeling 603
19.5 Conclusions 609
19.6 References 610
Part IV Applications 613
20 Processing nanostructured metal and metal-matrix
coatings by thermal and cold spraying 615
G.E. Kim, Perpetual Technologies Inc., Canada, V.K. Champagne,
and M. Trexler, US Army Research Laboratory AMSRD-ARL-WM-MC,
USA and Y. Sohn, University of Central Florida, USA
20.1 Introduction 615
20.2 Nanostructured metal-base feedstock 616
20.3 Thermal spray processing 617
xii Contents
20.4 Thermal spray processing of nanostructured coatings:
tungsten carbide-cobalt (WC-Co) coatings 620
20.5 Thermal spray processing of nanostructured coatings:
alumina-titania (n-AT) coatings 621
20.6 Thermal spray processing of nanostructured coatings:
titanium oxide coatings 622
20.7 Thermal spray processing of nanostructured coatings:
MCrAlY and NiCrAlY coatings 627
20.8 The cold spray process 644
20.9 Characteristics of cold spray material 647
20.10 Cold-sprayed processing of WC -Co 648
20.11 Cold-sprayed processing of non-cryogenically milled
n-WERKZ AA5083 651
20.12 Future trends 657
20.13 Sources of further information and advice 658
20.14 Acknowledgements 658
20.15 References 658
21 Nanocoatings for commercial and industrial
applications 663
J.L. McCrea and G. Palumbo, Integran Technologies, Canada
and U. Erb, University of Toronto, Canada
21.1 Introduction 663
21.2 Overview of nanostructured metals and alloys 664
21.3 Commercialization of nanostructured materials 666
21.4 Current and emerging applications 669
21.5 Conclusions 683
21.6 References 684
22 Applying nanostructured steel sheets to automotive
body structures 687
Y. Okitsu and N. Tsuji, Honda R D Co., Ltd., Japan
22.1 Introduction 687
22.2 The potential demand for nanostructured steels for
automotive body structures 688
22.3 Fabricating nanostructured low-C steel sheets 689
22.4 Improving elongation in nanostructured steel sheets 699
22.5 Crash-worthiness of nanostructured steel sheets 706
22.6 Conclusions 711
22.7 References 712
22.8 Appendix 713
Contents xiii
23 Production processes for nanostructured wires,
bars and strips 715
S. Torizuka, and E. Muramatsu, National Institute for Material
Science, Japan, T. Komatsu, Komatsuseiki Kosakusho Co., Ltd., Japan
and S. Nagayama, Tokushu Kinzoku Excel Co., Ltd., Japan
23.1 Introduction 715
23.2 The production processes and properties of nanostructured
steel bars 716
23.3 The production processes and properties of nanostructured
steel wire 722
23.4 The production processes and properties of nanostructured
steel strips 725
23.5 Applications of nanostructured steels and their features 731
23.6 Future trends 743
23.7 Acknowledgements 745
23.8 References 745
24 Nanostructured plain carbon-manganese (C-Mn) steel
sheets prepared by ultra-fast cooling and short interval
multi-pass hot rolling 747
T. Tomida, K. Miyata, and H. Nishibata, Sumitomo Metal Industries
Ltd., Japan
24.1 Introduction 747
24.2 The concept of ultra-fast direct cooling and short interval
multi-pass hot rolling (UDCSMR) and an experimental hot
rolling mill 749
24.3 Nanostructured carbon-manganese (C-Mn) steel sheets
produced by UDCSMR 752
24.4 Grain refinement mechanisms 757
24.5 Deformation characteristics 765
24.6 Welding and application to some prototype parts 773
24.7 Conclusions 784
24.8 References 784
Index 787
|
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| spelling | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications ed. by Sung H. Whang 1. publ. Oxford [u.a.] Woodhead 2011 XXXV, 803 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Metall (DE-588)4038860-8 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Legierung (DE-588)4035035-6 gnd rswk-swf Nanostrukturiertes Material (DE-588)4342626-8 s Metall (DE-588)4038860-8 s DE-604 Legierung (DE-588)4035035-6 s Whang, Sung H. Sonstige oth Erscheint auch als Online-Ausgabe 978-0-85709-112-3 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022544276&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications Metall (DE-588)4038860-8 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Legierung (DE-588)4035035-6 gnd |
| subject_GND | (DE-588)4038860-8 (DE-588)4342626-8 (DE-588)4035035-6 |
| title | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications |
| title_auth | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications |
| title_exact_search | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications |
| title_full | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications ed. by Sung H. Whang |
| title_fullStr | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications ed. by Sung H. Whang |
| title_full_unstemmed | Nanostructured metals and alloys processing, microstructure, mechanical properties and applications ed. by Sung H. Whang |
| title_short | Nanostructured metals and alloys |
| title_sort | nanostructured metals and alloys processing microstructure mechanical properties and applications |
| title_sub | processing, microstructure, mechanical properties and applications |
| topic | Metall (DE-588)4038860-8 gnd Nanostrukturiertes Material (DE-588)4342626-8 gnd Legierung (DE-588)4035035-6 gnd |
| topic_facet | Metall Nanostrukturiertes Material Legierung |
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