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E-raamat: Intelligent Materials and Structures

  • Formaat: 386 pages
  • Sari: De Gruyter Textbook
  • Ilmumisaeg: 12-Sep-2016
  • Kirjastus: De Gruyter
  • ISBN-13: 9783110389432
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Intelligent Materials and Structures provides exceptional insights into designing intelligent materials and structures for special applications in engineering. The author introduces the fundamental materials science involved in research endeavors and simultaneously reviews the current state-of-the-art of intelligent materials and structures. Separate chapters are devoted to the thorough examination of theory and application of laminated composite materials, Piezoelectricity, Shape Memory Alloys, Electro- and Magnetorheological fluids as well as Magneto- and Electrostrictive materials. Each chapter contains numerous equations and figures describing theories, models and behavior of the intelligent material discussed. Special attention is paid to applications of intelligent materials to various structures in the aerospace and medical sector, piezoelectric motors as well as piezoelectric and electromagnetic energy harvesting.

Contents: Introduction to Intelligent Materials and Structures Laminated Composite Materials Piezoelectricity Shape Memory Alloys Electrorheological and Magnetorheological Fluids Magnetostrictive and Electrostrictive Materials Applications of Intelligent Materials in Structures Energy Harvesting using Intelligent Materials Index
Preface v
1 Introduction to Intelligent Materials and Structures
1(85)
1.1 Types of Intelligent Materials
1(23)
1.2 Extended Review on Piezoelectric Materials, SMA, ER and MR Fluids and MS and ES Materials
24(43)
1.2.1 Extended Review on Piezoelectricity
24(3)
1.2.2 Extended Review on Shape Memory Alloys
27(2)
1.2.3 Extended Review on Electrorheological and Magnetorheological Fluids
29(1)
1.2.4 Extended Review on Magnetostrictive and Electrostrictive Materials
29(38)
1.3 Typical Properties of Intelligent Materials
67(9)
1.4 Recent Applications of Intelligent Materials and Systems
76(10)
2 Laminated Composite Materials
86(21)
2.1 Classical Lamination Theory
86(11)
2.2 First-Order Shear Deformation Theory (FSDT) Model
97(10)
3 Piezoelectricity
107(94)
3.1 Constitutive Equations
107(20)
3.2 Pin Force Beam Model
127(13)
3.3 Uniform-Strain Beam Model
140(9)
3.4 Bernoulli-Euler Beam Model
149(10)
3.5 First-Order Shear Deformation (Timoshenko Type) Beam Model
159(20)
3.6 Composite Plates with Piezoelectric Patches
179(18)
3.7 Appendix I
197(4)
3.7.1 Appendix A
197(1)
3.7.2 Appendix B: Constants Presented in Table 3.4
197(1)
3.7.3 Appendix C: Constants Presented in Table 3.5
198(1)
3.7.4 Appendix D
198(3)
4 Shape Memory Alloys
201(31)
4.1 Basic Behavior of SMA
201(13)
4.2 Constitutive Equations
214(9)
4.3 SMA Models in Literature
223(9)
5 Electrorheological and Magnetorheological Fluids
232(40)
5.1 Fundamental Behavior of ER and MR Fluids
232(14)
5.2 Modeling ER and MR Fluids
246(10)
5.3 Damping of ER and MR Fluids
256(12)
5.4 Appendix II
268(4)
5.4.1 Appendix A
268(2)
5.4.2 Appendix B
270(1)
5.4.3 Appendix C
270(2)
6 Magnetostrictive and Electrostrictive Materials
272(35)
6.1 Behavior of Magnetostrictive Materials
272(8)
6.2 Constitutive Equations of Magnetostrictive Materials
280(6)
6.3 Behavior of Electrostrictive Materials
286(5)
6.4 Constitutive Equations of Electrostrictive Materials
291(7)
6.5 Appendix III
298(9)
6.5.1 Appendix A
298(3)
6.5.2 Appendix B
301(6)
7 Applications of Intelligent Materials in Structures
307(42)
7.1 Aerospace Sector
307(21)
7.2 Medical Sector
328(7)
7.3 Piezoelectric Motors
335(14)
8 Energy Harvesting using Intelligent Materials
349(24)
8.1 Piezoelectric Energy Harvesting
349(15)
8.2 Electromagnetic Energy Harvesting
364(9)
Index 373
Haim Abramovich, Technion - Israel Institute of Technology, Haifa, Israel.
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