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Comprehensive Hard Materials volume 2 Ceramics

✍ Scribed by Vinod K. Sarin (editor-in-chief), Luis Llanes (editor), Daniele Mari (editor)

Publisher
Elsevier
Year
2014
Tongue
English
Leaves
527
Series
Comprehensive Hard Materials
Edition
1
Category
Library
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✦ Synopsis

Comprehensive Hard Materials deals with the production, uses and properties of the carbides, nitrides and borides of these metals and those of titanium, as well as tools of ceramics, the superhard boron nitrides and diamond and related compounds. Articles include the technologies of powder production (including their precursor materials), milling, granulation, cold and hot compaction, sintering, hot isostatic pressing, hot-pressing, injection moulding, as well as on the coating technologies for refractory metals, hard metals and hard materials. The characterization, testing, quality assurance and applications are also covered. Comprehensive Hard Materials provides meaningful insights on materials at the leading edge of technology. It aids continued research and development of these materials and as such it is a critical information resource to academics and industry professionals facing the technological challenges of the future.

✦ Table of Contents

COMPREHENSIVE HARD MATERIALS - Volume 2 Ceramics
......Page 4
Section I
- Introduction......Page 22
References......Page 0
2.07.1 Introduction......Page 252
2.01.4 Microstructure......Page 38
2.01.6 Some Examples of Hard Ceramics......Page 43
2.01.7 Summary......Page 47
Section II
- Synthesis and Processing......Page 50
2.02 - Processing of Alumina and Corresponding Composites......Page 52
2.02.1 Introduction......Page 53
2.02.3 Alumina Materials......Page 59
2.07.4 Diffusion Bonding with Metallic Interlayers......Page 256
References......Page 76
2.02.6 Fabrication of Alumina-Based Laminates......Page 78
2.02.7 Fabrication of Alumina Nanocomposites......Page 80
References......Page 84
2.15.2 Corrosion in Gases......Page 436
2.03.4 Shape Making......Page 101
2.03.6 Finishing......Page 103
2.06.7 Final Machining......Page 245
2.07.9 Examples and Applications......Page 107
2.14.2 Definitions and Experimental Methods......Page 111
2.04.4 Silicon Carbide-Based Ceramics......Page 122
2.04.5 Summary and Prospects......Page 187
2.16.6 Oxides......Page 241
2.05.1 Introduction......Page 198
2.05.3 Spark Plasma Sintering: Thermal and Electric Field Distribution......Page 204
2.10.4 Cyclic Fatigue......Page 312
2.05.6 Conclusions and Outlook......Page 221
Acknowledgments......Page 223
2.06 - Advanced Manufacturing of Hard Ceramics......Page 228
2.06.2 The Processing Chain of Ceramics Manufacturing......Page 229
2.06.3 Before the Startβ€”Definition of a Set of Requirements......Page 230
2.06.8 Case Studies......Page 246
References......Page 249
2.17.2 Environmental Barrier Coatings......Page 253
2.07.5 Indirect Liquid-Phase Joining......Page 260
2.14.7 Conclusions......Page 427
2.07.8 Testing the Joining Strength......Page 272
2.07.10 Concluding Remarks......Page 276
References......Page 277
Website Citations......Page 282
Section III
- Microstructure and Properties......Page 284
2.08.1 Introduction......Page 286
Acknowledgment......Page 303
2.09.2 Fracture and Strength of Brittle Materials......Page 307
2.09.3 Probability of Brittle Failure......Page 309
References......Page 316
2.10.1 Introduction......Page 320
2.10.3 Subcritical Crack Growth......Page 325
2.12 - Mechanical Behavior of SiC Fiber-Reinforced Ceramic Matrix Composites......Page 342
2.11.2 Creep Mechanisms in Polycrystalline Materials......Page 343
2.11.4 Creep Rupture of Ceramics......Page 360
2.11.5 Concluding Remarks......Page 361
2.12.5 Cyclic and Static Fatigue......Page 377
2.12.6 Creep......Page 383
2.12.7 Conclusions......Page 385
References......Page 386
2.13.1 Introduction......Page 388
2.15.4 Final Remarks......Page 461
2.13.6 Conclusions......Page 398
References......Page 402
2.14.3 Oxides......Page 411
2.14.6 Laminated Structures......Page 425
Section IV
- Coatings and Applications......Page 468
2.17.1 Introduction......Page 490
2.16.2 Coating Deposition Techniques......Page 470
2.16.7 Diamond-like Carbon......Page 481
2.16.8 Multilayers, Nanolaminates, and Nanocomposites......Page 483
References......Page 484
2.17.3 Thermal Barrier/Environmental Barrier Coating Systems......Page 503
References......Page 508
2.18.1 Introduction and Overview......Page 513

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