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Light Weight Materials: Processing and Characterization

✍ Scribed by Kaushik Kumar (editor), Bathini Sridhar Babu (editor), J. Paulo Davim (editor)

Publisher
Wiley-ISTE
Year
2022
Tongue
English
Leaves
241
Edition
1
Category
Library
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✦ Synopsis

In the automotive and aerospace industries, the need for strong yet light materials has given rise to extensive research into aluminum and magnesium alloys and formable titanium alloys. All of these are categorized as light weight materials. The distinguishing feature of light weight materials is that they are low density, but they have a wide range of properties and, as a result, a wide range of applications.

This book provides researchers and students with an overview of the recent advancements in light weight material processing, manufacturing and characterization. It contains chapters by eminent researchers on topics associated with light weight materials, including on the current buzzword β€œcomposite materials”. First, this book describes the current status of light weight materials. Then, it studies applications of these materials, given that, as the densities vary, so do the applications, ranging from automobiles and aviation to bio-mechatronics. This book will therefore serve as an excellent guide to this field.

✦ Table of Contents

Cover
Half-Title Page
Title Page
Copyright Page
Contents
Preface
Part 1. Manufacturing Processing Techniques
Chapter 1. Additive Manufacturing: Technology, Materials and Applications in Aerospace
1.1. Introduction
1.2. Additive manufacturing configuration
1.3. Classification of AM technology
1.3.1. Laser beam melting
1.3.2. Electron beam melting
1.3.3. Selective laser melting
1.3.4. Direct metal laser sintering
1.3.5. Laser metal fusion
1.3.6. Direct metal deposition
1.4. Materials used in AM technology
1.4.1. Titanium and its alloys
1.4.2. Inconel
1.4.3. Aluminum
1.4.4. Stainless steel
1.5. Aerospace applications of additive manufacturing
1.6. Challenges faced in the aerospace industry
1.7. Overcoming aerospace challenges with AM
1.8. Future work
1.9. Conclusion
1.10. References
1.11. Key terms and definitions
Chapter 2. Study of the Manufacturing Process of Polymer Spur Gears: A Light Weight Gear Material
2.1. Introduction
2.2. Gear manufacturing process
2.2.1. Gear hobbing machine
2.2.2. Injection molding
2.3. Additive manufacturing/rapid prototyping
2.4. Laser ablation
2.5. Hot embossing
2.6. Conclusion
2.7. References
Chapter 3. Recent Trends in Welding Polymers and Polymer–Metal Hybrid Structures
3.1. Introduction
3.2. Polymer and composites
3.3. Polymerization
3.4. Synthesis of polymer composites
3.5. Types of fillers in composites
3.5.1. Effect of reinforcement orientation
3.6. Welding polymers
3.7. Introduction of lightweight metal and alloys
3.7.1. Magnesium alloys
3.7.2. Aluminum alloys
3.8. Welding dissimilar metal alloys
3.8.1. Friction stir welding
3.8.2. Welding polymer and metal alloys
3.9. Industrial application of polymers
3.10. Conclusion
3.11. References
Part 2. Characterization
Chapter 4. Preparation and Characterization of a Composite Material Using Sisal fibers for Light Body Vehicles
4.1. Introduction
4.1.1. Statement of the problem
4.1.2. General objective
4.1.3. Specific objectives
4.1.4. Significance of the study
4.2. Literature review
4.2.1. Introduction
4.2.2. Previous works on natural fiber polymer composites
4.3. Materials and methods
4.3.1. Sample preparation methods
4.4. Results and discussion
4.4.1. Experimental results
4.4.2. Observation
4.5. Comparison of previous works
4.5.1. Tensile strength
4.5.2. Bending strength
4.6. Conclusion and recommendation
4.6. Conclusion and recommendation
4.6.1. Recommendations for prospective applications
4.6.2. Scope for future work
4.7. References
Chapter 5. Optimizing the Polystyrene Catalytic Cracking Process Using Response Surface Methodology
5.1. Introduction
5.2. Material and methods
5.2.1. Materials
5.2.2. Experimental procedure and characterization
5.2.3. Design of catalytic cracking experiment using response surface methodology
5.3. Results and discussion
5.3.1. Thermal analysis of polystyrene
5.3.2. SEM-EDX analysis
5.3.3. Model development for catalytic cracking of polystyrene
5.3.4. Combined effect of process parameters on the response (Y)
5.3.5. Characterization of liquid yield
5.3.6. Factors affecting catalytic cracking of polystyrene
5.4. Conclusion
5.5. References
Part 3. Analysis
Chapter 6. FEA Comparative Studies on Heat Flux and Thermal Stress Analysis during Conduction Mode and Keyhole Mode in the Laser Beam Welding
6.1. Introduction
6.2. Heat in laser welding
6.3. Modeling
6.4. Results and discussion
6.4.1. Keyhole model
6.4.2. Conduction model
6.5. Conclusion
6.6. References
Chapter 7. Effect of Formability Parameters on Tailor-Welded Blanks of Light Weight Materials
7.1. Introduction
7.2. Experimental procedure
7.3. Results and discussion
7.4. Conclusion
7.5. References
Chapter 8. Design and Analysis of Sedan Car B-pillar Outer Panel Using Abirbara with S-glass Fiber Hybrid Composites
8.1. Introduction
8.2. Materials and methods
8.2.1. Materials
8.2.2. Methods
8.3. Composite preparation, testing and analysis
8.3.1. Composite preparation
8.3.2. Testing and analysis
8.4. Design analysis of the B-pillar panel
8.5. Conclusion
8.6. Recommendations
8.7. Acknowledgments
8.8. References
List of Authors
Index
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