Shape Memory Materials,9780521663847

Shape Memory Materials

by
ISBN13: 9780521663847
ISBN10: 0521663849
Format: Paperback
Pub. Date: 1999-11-13
Publisher(s): Cambridge University Press
List Price: $74.00

Buy New

Usually Ships in 8 - 10 Business Days.
$73.93
Add to Cart

Rent Textbook

Select for Price
Add to Cart
There was a problem. Please try again later.

Used Textbook

We're Sorry
Sold Out

eTextbook

We're Sorry
Not Available

Buy from our Marketplace starting at $12.02

How Marketplace Works:

  • This item is offered by an independent seller and not shipped from our warehouse
  • Item details like edition and cover design may differ from our description; see seller's comments before ordering.
  • Sellers much confirm and ship within two business days; otherwise, the order will be cancelled and refunded.
  • Marketplace purchases cannot be returned to eCampus.com. Contact the seller directly for inquiries; if no response within two days, contact customer service.
  • Additional shipping costs apply to Marketplace purchases. Review shipping costs at checkout.

Summary

Shape memory materials are fascinating materials, with the potential for application as "smart materials" and also as new functional materials. This book presents a systematic and up-to-date account of all aspects of shape memory materials, from fundamentals to applications. Starting from the basic principles of the martensitic transformation, on which the shape memory effect and the superelasticity of alloys are based, the mechanisms of the two phenomena are clearly described, together with possible applications. The characteristics, fabrication techniques and thermomechanical treatment of various shape memory alloys are described in detail, with special emphasis on Ti-Ni and Ti-Ni-X (with X being Cu, Fe etc.) alloys. The book then describes various applications and design principles, for example in actuators, medical applications and as smart materials. The book contains chapters on shape memory ceramics and polymers as well as shape memory alloys, making the book a comprehensive account of the field.

Table of Contents

List of contributors
xi
Preface xiii
Introduction
1(26)
K. Otsuka
C. M. Wayman
Invitation to shape memory effect and the notion of martensitic transformation
1(4)
Martensitic transformations: crystallography
5(16)
Martensitic transformations: thermodynamic aspects
21(6)
Mechanism of shape memory effect and superelasticity
27(22)
K. Otsuka
C. M. Wayman
Stress-induced martensitic transformation and superelasticity
27(9)
Shape memory effect
36(8)
Rubber-like behavior
44(5)
Ti-Ni shape memory alloys
49(48)
T. Saburi
Structure and transformations
49(9)
Mechanical behavior of Ti-Ni alloys
58(15)
Ternary alloying
73(6)
Self-accommodation in martensites
79(5)
All-round shape memory (Two-way shape memory)
84(3)
Effects of irradiation on the shape memory behavior
87(1)
Sputter-deposited films of Ti-Ni alloys
87(6)
Melt-spun ribbons of Ti-Ni alloys
93(4)
Cu-based shape memory alloys
97(20)
T. Tadaki
Phase diagrams of typical Cu-based shape memory alloys
97(3)
Mechanical behavior
100(5)
Aging effects of shape memory alloys
105(4)
Thermal cycling effects
109(3)
Improvements of shape memory alloys
112(5)
Ferrous shape memory alloys
117(16)
T. Maki
Morphology and substructure of ferrous martensite
117(1)
Ferrous alloys exhibiting shape memory effect
118(3)
Shape memory effect associated with α thin plate martensite
121(5)
Shape memory effect associated with &epsis; martensite in Fe--Mn--Si alloys
126(7)
Fabrication of shape memory alloys
133(16)
Y. Suzuki
Fabrication of Ti--Ni based alloys
134(9)
Fabrication of Cu--Al--Zn based alloys
143(2)
Powder metallurgy and miscellaneous methods
145(4)
Characteristics of shape memory alloys
149(35)
J. Van Humbeeck
R. Stalmans
Summary of the functional properties
149(2)
A generalized thermodynamic description of shape memory behaviour
151(8)
Two-way memory behaviour
159(3)
Constrained recovery -- generation of recovery stresses
162(3)
The high damping capacity of shape memory alloys
165(3)
Cycling effects, fatigue and degradation of shape memory alloys
168(10)
Property values
178(6)
Shape memory ceramics
184(19)
K. Uchino
Development trends of new principle actuators
184(1)
Shape memory ceramics
185(4)
Sample preparation and experiments
189(1)
Fundamental properties of the electric field-induced phase transition
190(8)
Comparison with shape memory alloys
198(1)
Applications of shape memory ceramics
199(3)
Conclusions
202(1)
Shape memory polymers
203(17)
M. Irie
Shape memory effect of polymer materials
203(3)
Thermal-responsive shape memory effect
206(6)
Photo-responsive shape memory effect
212(6)
Chemo-responsive shape memory effect
218(2)
General applications of SMA's and smart materials
220(20)
K. N. Melton
Introduction
220(1)
History of applications of SMA
221(1)
SMA couplings
222(4)
Electrical connectors
226(4)
Fastener type applications
230(2)
History of applications of superelasticity
232(2)
Selection criteria for SMA applications
234(3)
Smart materials
237(3)
The design of shape memory alloy actuators and their applications
240(27)
I. Ohkata
Y. Suzuki
Characteristics of shape memory alloy actuators
240(2)
The design of shape memory alloy springs
242(5)
The design of two-way actuators
247(7)
Shape memory alloy actuator applications
254(13)
Medical and dental applications of shape memory alloys
267(15)
S. Miyazaki
Introduction
267(1)
Application examples
267(9)
Corrosion resistance
276(2)
Elution test
278(1)
Biocompatibility
279(3)
Index 282

An electronic version of this book is available through VitalSource.

This book is viewable on PC, Mac, iPhone, iPad, iPod Touch, and most smartphones.

By purchasing, you will be able to view this book online, as well as download it, for the chosen number of days.

Digital License

You are licensing a digital product for a set duration. Durations are set forth in the product description, with "Lifetime" typically meaning five (5) years of online access and permanent download to a supported device. All licenses are non-transferable.

More details can be found here.

A downloadable version of this book is available through the eCampus Reader or compatible Adobe readers.

Applications are available on iOS, Android, PC, Mac, and Windows Mobile platforms.

Please view the compatibility matrix prior to purchase.