Recent Advances in Layered Materials and Structures (Materials Horizons: From Nature to Nanomaterials)

✍ Scribed by Sarmila Sahoo (editor)

Publisher: Springer
Year: 2021
Tongue: English
Leaves: 438
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

This book provides topical information on innovative, structural and functional materials and composites with applications in various engineering fields covering the structure, properties, manufacturing process, and applications of these materials. It covers various topics in layered structures and layered materials. It discusses the latest developments in the materials engineering field. This book will be useful for academicians, researchers, and practitioners working in the fields of materials engineering, layered structures, and composite materials.

✦ Table of Contents

Preface
Contents
About the Editor
1 Natural and Synthetic Layered Fillers as Advanced Matter for Improvement of Composites Performance
1 Introduction
2 Nanofillers
2.1 Graphene
2.2 Layered Double Hydroxides
2.3 Phyllosilicates
2.4 Tetravalent Metal Phosphates
3 Final Considerations
References
2 High Temperature Tribology of Surface Coatings
1 Introduction
2 Surface Coating Deposition Techniques
2.1 Vapor Deposition Techniques
2.2 Electrodeposition
2.3 Electroless Deposition
2.4 Hard Facing
3 High Temperature Tribology of Coatings Deposited by Different Techniques
3.1 PVD/ Arc-PVD Coatings
3.2 CVD Coatings
3.3 Electrodeposited Coatings
3.4 Electroless Deposited Coatings
3.5 Plasma-Sprayed and Plasma-Transferred Arc Coatings
3.6 Laser Clad Coatings
4 Tribo-mechanisms Observed at Elevated Temperatures
4.1 Abrasive Wear
4.2 Adhesive Wear
4.3 Fatigue Wear
4.4 Mechanically Mixed Layers (MML) Formation
4.5 Tribo-oxide Scales Formation
5 Conclusions and Future Research Directions
References
3 Aramid Polycarbonate Resin Film Engineered Composite for Ballistic Protection: Engineered Layered Materials
1 Introduction
2 Materials and Experimental Details
2.1 Ballistic Experiment
3 Results and Discussion
4 Conclusions
References
4 Fiber-Reinforced Composites for Restituting Automobile Leaf Spring Suspension System
1 Introduction
2 Materials
2.1 Spring Steel
2.2 Stiffness
2.3 Strain Energy Storage
2.4 Fatigue Life
2.5 Case Studies
2.6 Limiting Factors of Steel
3 Synthetic Composite Leaf Springs
3.1 Mechanical Behavior of Fiber Composites
3.2 Case Studies on Fiber-Reinforced Composite Leaf Springs
3.3 Limiting Factors of Synthetic Fibers
4 Natural Fiber Substituted Composites
4.1 Case Studies
4.2 Jute-Reinforced Composite Leaf Spring
4.3 Banana Fiber-Reinforced Composite Leaf Spring
5 Life Cycle Assessment (LCA)
6 Conclusion
References
5 Fabrication of Aluminium Metal Matrix Nanocomposites: An Overview
1 Introduction
2 Fabrication Methods
2.1 Solid-State Processing
2.2 Semisolid-State Processing
2.3 Liquid-State Processing
2.4 Hybrid/Combination Processing
2.5 In Situ Methods
3 Summary
References
6 Aluminium Hybrid Composites Reinforced with SiC and Fly Ash Particles—Recent Developments
1 Introduction
2 Study on Al-MMC: Reinforced with SiC
2.1 Micro-SiC
2.2 Nano-SiC
3 Study on Al-MMC: Reinforced with FA
3.1 Micro-FA Particle
3.2 Nano-FA Particle
4 Study on Hybrid Al-MMC: Reinforced with FA and SiC (Micro-particles)
4.1 Microstructure and Mechanical Characteristics
4.2 Thermal Behaviour
4.3 Tribological Behaviour
4.4 Machining Behaviour
5 Conclusions
References
7 Tribological and Corrosion Behavior of Al-TiB2 Metal Matrix Composites—An Overview
1 Introduction
2 Composite Materials
3 Metal Matrix Composites
4 Particulate Reinforced MMCs
5 Fundamental Knowledge on Particulate Reinforced Composites
6 Aluminum-Based PRMMCs and Related Reinforcements
7 Fabrication of MMMCs
8 Tribological Properties of AMCS
9 Al–TiB2 Metal Matrix Composites
10 Fabrication of Al–TiB2 MMC
11 Tribological Properties of Al–TiB2 MMCs
12 Corrosion Behavior of Al–TiB2 MMCs
13 Conclusion and Future Scope
References
8 Mg-WC Nanocomposites—Recent Advances and Perspectives
1 Introduction
2 Fabrication Methods
2.1 Stir Casting
2.2 Ultrasonic Cavitation
2.3 Disintegrated Melt Deposition (DMD)
2.4 Infiltration Technique
2.5 Semi-Solid Processing
2.6 Powder Metallurgy
2.7 Friction Stir Processing (FSP)
3 Selected Review of Nanocomposite Properties
3.1 Microstructural Properties
3.2 Mechanical Properties
3.3 Tribological Properties
4 Conclusion and Future Remarks
References
9 Understanding Fabrication and Properties of Magnesium Matrix Nanocomposites
1 Introduction
2 Preparation of Magnesium Matrix Composite Reinforced by Nanoparticles
2.1 Stir Casting
2.2 Ultrasonic Vibration
2.3 Combination of Ultrasonic Vibration and Semisolid Stirring
2.4 Disintegrated Melt Deposition (DMD)
3 Secondary Processing Methods
3.1 Extrusion
3.2 Rolling
3.3 Multidirectional Forging (MDF)
3.4 Equal Channel Angular Pressing (ECAP)
3.5 Cyclic Extrusion and Compression (CEC)
4 Strengthening Mechanism
4.1 Orowan Strengthening
4.2 Hall–Petch
4.3 Mismatch in the CTE
4.4 Mismatch in Young’s Modulus
4.5 Load-Bearing
5 Mechanical Properties
5.1 Al2O3
5.2 SiC
5.3 AlN
5.4 CNT
5.5 WC
5.6 TiB2
6 Tribological Properties
6.1 Al2O3
6.2 SiC
6.3 WC
7 Corrosion Behavior
7.1 Al2O3
7.2 SiC
7.3 Graphene and CNT
7.4 WC
7.5 TiC
8 Conclusion
References
10 Dynamics of Axially Functionally Graded Timoshenko Beams on Linear Elastic Foundation
1 Introduction
2 Mathematical Formulation
2.1 Energy Expressions
2.2 Nonlinear Free Vibration Analysis
2.3 Nonlinear Forced Vibration Analysis
3 Result and Discussion
3.1 Natural Frequency
3.2 Backbone Curve
3.3 Mode Shape
3.4 Frequency Response Plot
4 Conclusion
Appendix
References
11 Dynamic Sensitivity Analysis of Random Impact Behaviour of Hybrid Cylindrical Shells
1 Introduction
2 Background
3 Governing Equations
4 Polynomial Chaos Expansion (PCE)
5 Results and Discussion
6 Conclusion
References
12 Statistical Energy Analysis Parameters Investigation of Composite Specimens Employing Theoretical and Experimental Approach
1 Introduction
2 Overview of SEA
2.1 Approach of SEA
2.2 Important Parameters in SEA
2.3 Some Limitations and Assumptions in SEA
2.4 Deterministic and Statistical Approaches
3 Theoretical Evaluation of SEA Parameters
3.1 Modal Density
3.2 Damping Loss Factor (DLF)
3.3 Coupling Loss Factor (CLF)
4 Experimental Evaluation of SEA Parameters
4.1 Fabrication of Composite Specimens
4.2 Experimental Testing
5 Conclusion and Future Scope
References
13 Surrogate Model Validation and Verification for Random Failure Analyses of Composites
1 Introduction
2 Brief Literature Review on Stochastic Analyses of Composite Laminates
3 Governing Equations
4 Mathematical Modelling
5 Probabilistic First-Ply Failure Load Analysis
6 Multivariate Adaptive Regression Splines (Mars) as Surrogate Model
7 Result and Discussion
8 Conclusion
References
14 Iosipescu Shear Test of Glass Fibre/epoxy Composite with Different Delamination Geometries: A Shear Behaviour Study
1 Introduction
2 Background
3 Main Focus of the Chapter
3.1 Experimental Details
3.2 Numerical Modelling
4 Solutions and Recommendations
4.1 Experimental Results
4.2 Numerical Results
5 Conclusions
6 Future Research Directions
References
15 Parametric Study of Dispersed Laminated Composite Plates
1 Introduction
1.1 Hybrid Laminated Composite Plates
1.2 Thermal Buckling Analysis of Composite Laminates
2 Method
2.1 Eigenvalue Buckling Analysis
3 Results
4 Conclusions
References
16 Modeling Fracture in Straight Fiber and Tow-Steered Fiber Laminated Composites—A Phase Field Approach
1 Introduction
2 Overview of Phase Field Method
2.1 Governing Balance Equations
2.2 Numerical Implementation
2.3 Implementation Aspects in FEniCS
3 Laminated Composite Fracture
3.1 Tow-Steered Composite Laminates (TSCL)
4 Concluding Remarks
References
17 An Iso-Geometric Analysis of Tow-Steered Composite Laminates: Free Vibration, Mechanical Buckling and Linear Flutter Analysis
1 Introduction
2 Theoretical Formulation
3 Overview of Iso-Geometric Analysis
4 Results
4.1 Free Vibration
4.2 Buckling
4.3 Linear Flutter
5 Concluding Remarks
References

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