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El. knyga: Bulk Nanostructured Materials with Multifunctional Properties

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  • Formatas: PDF+DRM
  • Serija: SpringerBriefs in Materials
  • Išleidimo metai: 01-Sep-2015
  • Leidėjas: Springer International Publishing AG
  • Kalba: eng
  • ISBN-13: 9783319195995
Kitos knygos pagal šią temą:
Bulk Nanostructured Materials with Multifunctional PropertiesDidesnis paveikslėlis
  • Formatas: PDF+DRM
  • Serija: SpringerBriefs in Materials
  • Išleidimo metai: 01-Sep-2015
  • Leidėjas: Springer International Publishing AG
  • Kalba: eng
  • ISBN-13: 9783319195995
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This book presents a multifunctional approach to the design of bulk nanostructured metals through severe plastic deformation (SPD). Materials engineering has traditionally involved selecting a suitable material for a given application. However, modern engineering frequently requires materials with a set of multifunctional, often conflicting properties: Enhanced mechanical properties need to be combined with improved physical (electrical, magnetic, etc.) and/or chemical (corrosion resistance, biocompatibility) properties. So disparate materials properties need to be engineered and optimized simultaneously. These requirements have created a paradigm shift in which the classical materials selection approach is replaced by design of material microstructures to achieve certain performance requirements, subject to constraints on individual properties such as strength, conductivity, and corrosion resistance. Written by researchers at the forefront of this new materials design approach, the present volume provides a comprehensive introduction to multifunctional design of bulk nanostructured materials, with applications ranging from hydrogen storage to construction engineering.
1 Introduction
1(10)
1.1 What Are Bulk Nanostructured Metallic Materials and How Are They Processed?
1(5)
1.2 About Importance of Multifunctional Approach in Studies on Metallic Materials
6(5)
References
7(4)
2 Nanostructures in Materials Subjected to Severe Plastic Deformation
11(16)
2.1 Grain Refinement via Severe Plastic Deformation
13(1)
2.2 Grain Boundaries in Nanostructured Materials
14(4)
2.3 Nanotwins in Metallic Materials After Severe Plastic Deformation
18(1)
2.4 Segregations in Nanostructured Alloys Processed by Severe Plastic Deformation
19(2)
2.5 Precipitation of Second Phases in Alloys During and/or After Severe Plastic Deformation
21(6)
References
24(3)
3 Multifunctional Properties of Bulk Nanostructured Metallic Materials
27(74)
3.1 Superstrength and Enhanced Mechanical Properties
27(27)
3.1.1 Superstrength and Ductility
28(14)
3.1.2 Fatigue Properties of Nanostructured Metallic Materials
42(1)
3.1.2.1 High-Cycle Fatigue Behavior of Nanostructured Metallic Materials
43(3)
3.1.2.2 Low-Cycle Fatigue Behavior of Nanostructured Metallic Materials
46(1)
3.1.2.3 Strategies to Increase Fatigue Properties of Nanostructured Metallic Materials
47(2)
3.1.3 Wear Resistance
49(5)
3.2 Improved Physical Properties
54(19)
3.2.1 Electrical Conductivity
54(8)
3.2.2 Magnetic Properties
62(5)
3.2.3 Irradiation Resistance of Bulk Nanostructured Metallic Materials
67(6)
3.3 Enhanced Chemical Properties
73(28)
3.3.1 Corrosion Resistance
73(6)
3.3.2 Biocompatibility
79(7)
References
86(15)
4 Bulk Nanostructured Metals for Innovative Applications
101(14)
4.1 Nanostructured Ti and Ti Alloys for Biomedical Engineering
101(4)
4.2 Nanostructured Cu and Al Alloys for Perspective Electro-Conductors
105(1)
4.3 Nanostructured Mg Alloys for Hydrogen Storage
106(1)
4.4 Large-Size Tools Made from Bulk Nanostructured Metallic Materials
107(1)
4.5 Micro- and Mini-devices from Bulk Nanostructured Materials
108(1)
4.6 Nanostructured Magnets
109(1)
4.7 Bulk Nanostructured Materials for Sport Industry
110(1)
4.8 Bulk Nanostructured Materials for Fabrication of Fasteners and Fixings
111(4)
References
112(3)
Index 115
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