Engineering aspects of shape memory alloys /

Engineering Aspects of Shape Memory Alloys provides an understanding of shape memory by defining terms, properties, and applications. It includes tutorials, overviews, and specific design examples-all written with the intention of minimizing the science and maximizing the engineering aspects. Althou...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Duerig, T. W.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London ; Boston : Butterworth-Heinemann, 1990.
Temas:
Alloys > Thermomechanical properties.
Shape memory effect.
Shape memory alloys.
Alliages > Propri�et�es thermom�ecaniques.
Effet m�emoire de forme.
Alliages �a m�emoire de forme.
TECHNOLOGY & ENGINEERING > Metallurgy.
Alloys > Thermomechanical properties
Shape memory alloys
Shape memory effect
Memory-Legierung
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Engineering Aspects of Shape Memory Alloys; Copyright Page; Introduction; Acknowledgements; Table of Contents; Part I; Chapter 1. An Introduction to Martensite and Shape Memory; 1. Martensite: A Microscopic Perspective; 2. Martensite: a Macroscopic Perspective; 3. The Origin of Shape Memory; 4. Stress-Induced Martensite and Superelasticity; 5. The Two-Way Shape Memory; 6. Summary; Chapter 2. Ni-Ti Based Shape Memory Alloys; 1. Metallurgy of Ni-Ti Alloys; 2. Mechanical Properties; 3. Effects of Thermo-mechanical Processing; 4. Corrosion Behavior; 5. Effect of Alloying Elements.
  • 1. Experimental2. Transformation Behavior; 3. Transformation Behavior after Deformation; 4. Summary and Conclusions; Acknowledgement; References; Chapter 6. Cu-Based Shape Memory Alloys; 1. Cu-Based Shape Memory Alloy Systems; 2. Effects of Alloy Elements; 3. Thermal Effects on the Martensitic Transformation; 4. Mechanical Properties; 5. Rapid Solidification and Powder Metallurgy; 6. Environmental Effects; 7. Joining; 8. Conclusion; References; Chapter 7. Cu-Al-Ni-Mn: A New Shape Memory Alloy for High Temperature Applications; 1 . The Principles of the Development Program.
  • 2. Shape Memory Effect3. Thermal Stability; 4. Recovery Force; 5. Conclusions; 6. Acknowledgements; References; Chapter 8. On The Stability of Shape Memory Alloys; 1 . The Hysteresis Effect; 2. Overheating in the Beta-Phase above Af; 3. Stabilization of the Martensite Phase; 4. Degradation of the Two-Way Shape Memory Effect; 5. Differences between Design and Actual Behavior; 6. Conclusions; Acknowledgements; References; Chapter 9. Measurable Changes Concomitant with the Shape Memory Effect Transformation; 1. Property Changes; 3. Conclusion; References; Part II.
  • Chapter 10. The Mechanical Aspects of Constrained Recovery1. Measurement Methods; 2. Free Recovery; 3. Constrained Recovery; 4.0 The Application SMA's in Constrained Recovery; 5.0 Summary; References; Chapter 11. Wide Hysteresis Shape Memory Alloys; 2. Cu-Based Alloys; 3. Hysteresis Expansion in Ni-Ti Based Systems; 3. Comparison of Ni-Ti-Nb with Cu Based Alloys; References; Chapter 12. Shape Memory Alloy Tube and Pipe Couplings; 1. Principles of Shape Memory Alloys Couplings; 2. Testing of Couplings; 3. Marine and Industrial Couplings; 4. Tolerances; 5. Success of Coupling Application.

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