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Friction Based Additive Manufacturing Technologies: Principles for Building in Solid State, Benefits, Limitations, and Applications

✍ Scribed by Sandeep Rathee, Manu Srivastava, Sachin Maheshwari, T.K. Kundra, Arshad Noor Siddiquee

Publisher
CRC Press
Year
2018
Tongue
English
Leaves
173
Edition
1
Category
Library
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✦ Synopsis

Friction additive manufacturing is a term used for friction based solid state welding processes in conjugation with additive manufacturing, to produce components with superior structural and mechanical properties. This is a novel manufacturing technology of developing high structural performance components. It utilizes the principle of layer by layer additive manufacturing and is a major breakthrough in metal additive manufacturing. The book is a compilation of friction based solid state processes and additive manufacturing principles, and will cover the methodological principles, benefits, limitations, and applications of additive manufacturing and friction stir welding processes.

✦ Table of Contents

Content: Cover
Half Title
Title Page
Copyright Page
Contents
List of Figures
List of Tables
List of Abbreviations
Preface
Acknowledgments
Authors
1. General Introduction and Need of Friction Based Additive Manufacturing Techniques
Foreword
1.1 Introduction
1.2 Need for Friction Based Additive Manufacturing Techniques
1.3 Benefits of Friction Based Additive Manufacturing Techniques
1.4 Content Outline
References
2. Additive Manufacturing Technologies
2.1 Introduction
2.2 Historical Development and Timeline
2.3 Working Principles and Additive Manufacturing Process Chain 2.4 Classification of Additive Manufacturing Techniques2.5 Common Additive Manufacturing Processes
2.6 Advantages and Challenges of Additive Manufacturing Processes
2.7 Applications of Additive Manufacturing Technologies
2.8 Metal Additive Manufacturing Techniques
2.8.1 Limitations of Metal Additive Manufacturing
2.8.2 Porosity
2.8.3 Loss of Alloying Elements
2.8.4 Cracking and Delamination
2.9 Conclusion and Future Scope of Additive Manufacturing
References
3. Friction Based Joining Techniques
3.1 Introduction
3.2 Historical Development of Friction Welding 3.3 Friction Welding Techniques3.4 Variants of Friction Welding Techniques
3.5 Hybrid Friction Based Additive Manufacturing Processes
3.5.1 Benefits and Limitations of Friction-Based Additive Techniques
3.6 Conclusions
References
4. Friction Joining-Based Additive Manufacturing Techniques
4.1 Introduction
4.2 Rotary Friction Welding
4.2.1 Working Principles of Rotary Friction Welding
4.2.2 Process Parameters Affecting Rotary Friction Welding
4.2.3 Additive Manufacturing with Rotary Friction Welding
4.2.3.1 Applications of Rotary Friction Welding asΒ an Additive Manufacturing Tool 4.3 Linear Friction Welding4.3.1 Working Principles of Linear Friction Welding
4.3.2 Factors Affecting Linear Friction Welding
4.3.3 Additive Manufacturing with Linear Friction Welding
4.3.3.1 Applications of Linear Friction Welding as an Additive Manufacturing Tool
4.4 Comparison of Rotary Friction Welding and Linear Friction Welding
4.5 Advantages and Limitations of Friction Welding
4.6 Conclusion
References
5. Friction Deposition-Based Additive Manufacturing Techniques
5.1 Introduction
5.2 Friction Deposition 5.2.1 General Features and Experimental Results on Additive Manufacturing Using Friction Deposition5.2.1.1 Development of Ferrous Metal Deposits Using Friction Deposition
5.2.1.2 Development of Nonferrous Metal Alloy Builds Using Friction Deposition
5.2.2 Benefits and Limitations of Friction Deposition
5.3 Friction Surfacing
5.3.1 Working Principles of Friction Surfacing
5.3.2 Friction Surfacing Process Parameters
5.3.3 General Features and Status of Research of Friction Surfacing-Based Additive Manufacturing Methods
5.3.4 Benefits and Limitations

✦ Subjects

Industrial engineering.;Production engineering.;Mechanics.;Metals.;Alloys.;TECHNOLOGY & ENGINEERING / Mechanical

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