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. Although the individual chapters have been written by many different authors, each one of the best in their fields, the overall tone and intent of the book is not that of a proceedings, but that of a textbook. The book consists of five parts. Part I deals with the mechanism of shape memory and the alloys that exhibit the effect. It also defines many essential terms that will be used in later parts. Part II deals primarily with constrained recovery, but to some extent with free recovery. There is an introductory paper which defines terms and principles, then several specific examples of products based on constrained recovery. Both Parts III and IV deal with actuators. Part III introduces engineering principles while Part IV presents several of the specific examples. Finally, Part V deals with superelasticity, with an introductory paper and then several specific examples of product engineering.

Introduction Part I An Introduction to Martensite and Shape Memory Ni-Ti Based Shape Memory Alloys Introduction to the R-Phase Transition Ni-Ti-Cu Shape Memory Alloys Shape Memory and Transformation Behavior of Martensitic Ti-Pd-Ni and Ti-Pt-Ni Alloys Cu-Based Shape Memory Alloys Cu-AI-Ni-Mn: A New Shape Memory Alloy for High Temperature Applications On the Stability of Shape Memory Alloys Measurable Changes Concomitant with the Shape Memory Effect Transformation Part II The Mechanical Aspects of Constrained Recovery Wide Hysteresis Shape Memory Alloys Shape Memory Alloy Tube and Pipe Couplings The Design of Electrical Interconnection Systems with Shape Memory Alloys Shape Memory Alloy Fastener Rings Shape Memory Alloy Applications in Space Systems Part III Actuator and Work Production Devices The Two-Way Shape Memory Effect Thermal Actuators: A Comparison of Shape Memory Alloys with Thermostatic Bimetals and Wax Actuators Electrical Actuators: Alloy Selection, Processing and Evaluation Design Principles for Ni-Ti Actuators Design Principles for Cu-Zn-AI Actuators Fatigue Properties of Ni-Ti Shape Memory Alloys Fatigue of Copper-Based Shape Memory Alloys Part IV Shape Memory Actuators for Automotive Applications The Use of Shape Memory Alloys for Fire Protection In Line Anti-Scald Safety Valve Shape Memory Sensor and Actuator for Air Conditioners Shape Memory Actuators in Circuit Breakers Shape Memory Actuators for Robotic Applications A Shape Memory Arming Device Using Shape Memory for Proportional Control Part V An Engineer's Perspective of Pseudoelasticity Thermal and Stress Cycling Effects and Fatigue Properties of Ni-Ti Alloys Linear Superelasticity in Cold-Worked Ni-Ti Eyeglass Frames and SMA - The Challenge and the Product The Use of Ni-Ti as an Implant Material in Orthopedics Medical Applications of Ni-Ti Alloys in China Superelastic Ni-Ti Alloys in Orthodontics Shape Memory Implants The Use of Ni-Ti in the Homer Mammalok The Use of Superelasticity in Guidewires and Arthroscopic Instrumentation Some Notes on the Mechanical Damping of Shape Memory Alloys Index