Smart technologies / K. Worden, W.A. Bullough & J. Haywood.

Format:

Book

Author/Creator:

Worden, K.

Contributor:

Bullough, W. A.

Haywood, J. (Jonathan)

Language:

English

Subjects (All):

Technological innovations.

Smart structures.

Smart materials.

Physical Description:

xi, 271 p. : ill.

Edition:

1st ed.

Place of Publication:

River Edge, N.J. : World Scientific, c2003.

Language Note:

English

Summary:

This book is a general introduction to intelligent or smart materials, systems and machines. Presented in understandable and non-mathematical terms, it is for anyone who is interested in future developments in these fields or who needs to be briefed on the current status of these interdisciplinary technologies. The intended audience comprises physicists, engineers, materials scientists and computer scientists of all levels, from undergraduates to post-doctoral practitioners.

Contents:

ch. 1. The smart approach - an introduction to smart technologies. 1.1. What constitutes a smart technology? 1.2. Application of smart technologies

ch. 2. Sensing systems for smart structures. 2.1. Introduction. 2.2. Sensor requirements in smart systems. 2.3. Sensor technologies for smart systems. 2.4. Conclusions

ch. 3. Vibration control using smart structures. 3.1. Introduction. 3.2. Sensors and actuators. 3.3. Active control of structures. 3.4. Examples of vibration control. 3.5. Conclusions

ch. 4. Data fusion - the role of signal processing for smart structures and systems. 4.1. Introduction. 4.2. Sensors. 4.3. Sensor fusion. 4.4. The JDL model. 4.5. The Boyd model. 4.6. The waterfall model. 4.7. The omnibus model. 4.8. The relevance of data fusion for smart structures. 4.9. Case study: fault detection based on Lamb wave. 4.10. Sensor optimisation, validation and failure-safety. 4.11. Conclusions

ch. 5. Shape memory alloys - a smart technology? 5.1. Introduction. 5.2. Structural origins of shape memory. 5.3. One-way shape memory. 5.4. Two-way memory effect. 5.5. Pseudoelasticity or the superelastic effect. 5.6. A brief history of memory alloys and their application. 5.7. Why not use bimetals? 5.8. Types of shape memory alloy. 5.9. Nickel titanium shape memory alloys. 5.10. NiTi shape memory alloys in smart applications. 5.11. Shape memory alloys as smart actuators. 5.12. Shape memory alloys and their fit to smart technologies. 5.13. Final thoughts

ch. 6. Piezoelectric materials. 6.1. Introduction to piezoelectricity. 6.2. Applications of the direct piezoelectric effect. 6.3. Acoustic transducers. 6.4. Piezoelectric actuators. 6.5. The problem of amplification. 6.6. Further application examples

ch. 7. Magnetostriction. 7.1. Introduction. 7.2. Rare earth intermetallics. 7.3. Actuation. 7.4. Conclusions

ch. 8. Smart fluid machines. 8.1. Introduction. 8.2. Concepts and philosophy. 8.3. More philosophy. 8.4. The strictor driven-hydraulic valve. 8.5. Electrostructured fluids. 8.6. Performance prediction. 8.7. Applications

ch. 9. Smart biomaterials - "out-smarting" the body's defense systems and other advances in materials for medicine. 9.1. Introduction. 9.2. Dumb biomaterials - the first generation. 9.3. Planning and refinement - second generation biomaterials. 9.4. Smart surfaces tailored for specific applications - third generation biomaterials. 9.5. Really smart biomaterials - the next generation. 9.6. Conclusions

ch. 10. Natural engineering - the smart synergy. 10.1. Introduction. 10.2. Intelligent biomimetics. 10.3. Conclusions.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references.

ISBN:

9786611908768

9781601192493

1601192495

9781281908766

1281908762

9789812705310

9812705317

OCLC:

652463148