Shape memory alloys : manufacture, properties and applications /
| Други автори: | Chen, H. R. |
|---|---|
| Формат: | Електронна книга |
| Език: | English |
| Публикувано: |
New York :
Nova Science Publishers,
℗♭2010.
|
| Серия: |
Materials science and technologies series.
|
| Предмети: | |
| Онлайн достъп: |
http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=369975 |
| Подобни документи: |
Print version::
Shape memory alloys. |
Съдържание:
- ""SHAPE MEMORY ALLOYS:MANUFACTURE, PROPERTIES ANDAPPLICATIONS""; ""CONTENTS""; ""PREFACE""; ""CONSTITUTIVE MODELS FOR SHAPE MEMORYALLOYS: A TWO-PHASE MIXTURE MODEL AND AMICROSTRUCTURE-BASED MODEL""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. A TWO-PHASE MIXTURE MODEL FOR SHAPE MEMORY ALLOYS""; ""2.1. A Two-Phase Mixture Model""; ""2.2. Analytical Approach in the Case of Biaxial Loading""; ""2.2.2. Numerical Algorithm for the Case of Biaxial Loading""; ""Stress-Controlled Biaxial Loading""; ""Application and Verification""; ""2.4. Brief Summary and Discussion""
- ""3. A MICROSTRUCTURE-BASED CONSTITUTIVE MODELFOR NITI SMAS""""3.1. Observation of the Surface Morphology of the Deformed Niti SMAMicrotube Specimens""; ""3.2. Numerical Investigation to the Effects of Transformation Microstructures""; ""3.3. A MICROSTRUCTURE-BASED CONSTITUTIVE MODEL""; ""3.3.1. The Constitutive Models for the Martensite and Austenite Phases""; ""3.3.2. Constitutive Model for a Representative Volume Element of the NiTiSMAs""; ""3.3.3. The Hillâ€?s Self-Consistent Scheme""; ""3.4. APPLICATION AND VERIFICATION""; ""3.4.1. Determination of Î? and g(Î?)""
- ""3.4.2. Identification of the Material Parameters""""3.4.4. Numerical algorithm""; ""3.4.5. Analyses of the Responses of the NiTi SMAs Under Tensile/TorsionalLoadings""; ""3.5. BRIEF SUMMARY AND DISCUSSION""; ""APPENDIX A""; ""APPENDIX B""; ""ACKNOWLEDGMENT""; ""REFERENCES""; ""CONTROL OF SMA SYSTEMS: REVIEW OF THE STATEOF THE ART""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. VARIOUS CONTROL ISSUES FOR SMA""; ""3. CONTROL STRATEGIES FOR SMA SYSTEMS""; ""3.1 Linear Control""; ""3.2 Nonlinear Control""; ""3.3 Other Control Methods""; ""3.4 Hybrid Control Design""
- ""4. COMPARISON OF THE CONTROL STRATEGIES""""5. CONCLUSION""; ""REFERENCES""; ""FABRICATION AND SURFACE MODIFICATION OFPOROUS NICKEL-TITANIUM SHAPE MEMORY ALLOYFOR BONE GRAFTS""; ""ABSTRACT""; ""ABBREVIATIONS AND SYMBOLS""; ""1. INTRODUCTION""; ""1.1. Necessity of Artificial Bone Implants""; ""1.2. Types, Structures and Properties of Bone""; ""1.3. Niti Shape Memory Alloys (Smas) in Bone/Hard Tissue Replacement""; ""2. FABRICATION METHODS""; ""2.1. Elemental Powder Sintering (EPS)""; ""2.2. Combustion Synthesis (CS)""; ""2.3. Self-Propagating High Temperature Synthesis (SHS)""
- ""2.4. Spark Plasma Sintering (SPS)""""2.5. Hot isostatic Pressing (HIP)""; ""2.6. Capsule-Free Hot Isostatic Pressing (CF-HIP).""; ""2.7. PM Processes with Space Holders""; ""3. SURFACE MODIFICATION""; ""3.1. Oxidation""; ""3.2. Oxygen Plasma Immersion Ion Implantation""; ""3.3. Chemical Treatment""; ""3.4. Physical vapor Deposition (PVD)""; ""4. IN VITRO AND IN VIVO STUDIES""; ""4.1. In vitro tests""; ""5. IMPLANT APPLICATIONS""; ""6. CONCLUSION""; ""REFERENCES""; ""STRUCTURE AND PROPERTIES OF AMONOCRYSTALLINE CU-AL-NI ALLOY SUBMITTEDTO THERMAL CYCLING UNDER LOAD""; ""ABSTRACT""