Auxetic Materials and Structures
β Lim, Teik-Cheng
π Library
π
2015
π Springer Singapore
π English
β¦ LIBER β¦
π
Mechanics of Auxetic Materials and Structures (Emerging Materials and Technologies)
β Scribed by Farzad Ebrahimi
- Publisher
- CRC Press
- Year
- 2024
- Tongue
- English
- Leaves
- 373
- Edition
- 1
- Category
- Library
β¬ Acquire This Volume
No coin nor oath required. For personal study only.
β¦ Synopsis
Mechanics of Auxetic Materials and Structures offers a wide range of application-based and practical considerations of smart materials and auxetic materials in engineering structures. Exploring the analytical and numerical solution procedures, the book discusses crucial characteristics of metamaterials and their response to external factors.
Covering the effect of different parameters and external factors on the mechanics of auxetic materials and structures, the book considers the benefits leading to better fracture resistance, toughness, shear modulus, and acoustic response.
The book serves as a reference for senior undergraduate and graduate students studying civil engineering, mechanical engineering, and materials science and taking courses in smart materials, metamaterials, and mechanics of materials.
β¦ Table of Contents
Cover
Half Title
Series
Title
Copyright
Contents
About the Author
Preface
Abbreviations
Symbols
Chapter 1 An Introduction to Metamaterials and Auxetic Materials and Structures
1.1 Background
1.2 Definition of Poissonβs Ratio
1.3 Definition of Auxetic Materials
1.4 Effective Structures and Deformation Mechanisms of Auxetic Materials
1.5 Mechanical Modelling of Auxetic Materials and Structures
1.6 Unit cell and the Entire Miura-ori Pattern
1.7 Application of Metamaterials and Auxetic Materials
1.7.1 Medical Application
1.7.2 Application in Aerospace Engineering
1.7.3 Advanced Smart Sensor and Filter
1.7.4 Nail Design
1.7.5 Textile
1.7.6 Fabrication Methods
1.7.7 Challenges of Auxetic Materials
References
Chapter 2 Static Analysis of Auxetic Structures
2.1 Background
2.2 Auxetic Nanocomposite Beams: Static Analysis
2.2.1 Bending Characteristics of Auxetic Nanocomposite Beams
2.2.2 Porosity Effects
2.2.3 Postbuckling Characteristics of Auxetic Nanocomposite Beams
2.3 Summary
References
Chapter 3 Vibration and Dynamic Characteristics of Auxetic Structures
3.1 Background
3.2 Auxetic Rods: Vibration Analysis
3.3 Auxetic Plates: Vibration Analysis
3.3.1 Vibration Analysis of Smart Sandwiched Auxetic Plate with MEE Faces
3.3.2 Vibration Analysis of Graphene Origami-Enabled Sandwiched Auxetic Plates with Piezoelectric Face Sheets
3.4 Auxetic Shells: Vibration Analysis
3.4.1 Vibration Analysis of Cylindrical Composite Shells with Auxetic Core
3.4.2 Vibration Analysis of Smart Doubly Curved Auxetic Shells
3.5 Summary
References
Chapter 4 Active Vibration Control of Auxetic Structures
4.1 Background
4.2 Active Vibration Control of Smart Laminates with an Auxetic Ply
4.3 Active Vibration Control of Composite Auxetic Plates with Magnetostrictive Coatings
4.4 Active Vibration Control of Graphene-Origami-Enabled Auxetic Plates with Magnetostrictive Coatings
4.5 Summary
References
Chapter 5 Wave Dispersion Characteristics of Auxetic Structures
5.1 Background
5.2 Auxetic Beams: Wave Propagation Analysis
5.3 Auxetic Plates: Wave Propagation Analysis
5.4 Auxetic Shells: Wave Propagation Analysis
5.5 Summary
References
Index
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