Advances in welding technologies for process development /
edited by Jaykumar J. Vora and Vishvesh J. Badheka.
- 1 online resource.
Cover; Half Title; Title Page; Copyright Page; Contents; Preface; Foreword; Acknowledgments; Editors; Contributors; 1. Multiple-Wire Welding GMAW and SAW; 1.1 Introduction; 1.2 Background; 1.3 Multiple-Wire Technology; 1.3.1 Twin-Wire Welding; 1.3.2 Welding with Three or More Wires; 1.4 Recent Advancements in Multiple-Wire Technology; 1.4.1 Tandem GMAW; 1.4.2 Power Source Synchronization; 1.4.3 TIME-Twin; 1.4.4 Double-Electrode GMAW and SAW; 1.4.5 Twin-Wire Indirect Arc Welding; 1.4.6 Cable-Type Welding Wire Arc Welding; 1.4.7 Metal Powered-Assisted Multiple-Wire Welding 1.5 Recent Trends in Research in Multiple-Wire Welding1.6 Conclusions; References; 2. Regulated Metal Deposition (RMD") Technique for Welding Applications: An Advanced Gas Metal Arc Welding Process; 2.1 Introduction; 2.2 Regulated Metal Deposition-The Process; 2.2.1 Working Principle; 2.2.2 Applications of RMD Process; 2.3 Summary and Future Trends; References; 3. Friction Stir Welding and Its Variants; 3.1 Introduction to Friction Stir Welding (FSW); 3.1.1 Basic Working Principle of FSW; 3.1.2 Advantages and Limitations; 3.1.3 FSW Variants; 3.2 Assisted Friction Stir Welding (A-FSW) 3.2.1 Plasma-FSW (PFSW)3.2.2 Gas Torch-FSW (GFSW); 3.2.3 Laser-FSW (LFSW); 3.2.4 Gas Tungsten Arc Welding-FSW (GTAFSW); 3.2.5 Electrically Assisted FSW (EAFSW); 3.2.6 Induction Heating Tool-Assisted FSW (i-FSW); 3.2.7 Ultrasonic Energy-Assisted FSW (UAFSW); 3.3 Friction Stir Spot Welding (FSSW); 3.4 Stationary Shoulder Friction Stir Welding (SSFSW); 3.5 Bobbin Tool or Self-Reacting Friction Stir Welding (SRFSW); 3.6 Friction Stir Channeling (FSC); 3.7 Friction Stir Processing (FSP); 3.7.1 Grain Refinement; 3.7.2 Superplasticity; 3.7.3 Surface and Bulk Composite Manufacturing 3.7.4 Casting and Fusion Weld Repair3.8 Summary; Acknowledgments; References; 4. Different Methodologies for the Parametric Optimization of Welding Processes; 4.1 Introduction; 4.2 Optimization Methodology; 4.2.1 Optimization Process; 4.2.2 Optimization Methods; 4.2.3 Taguchi's Optimization; 4.2.4 Response Surface Methodology; 4.2.5 Meta-Heuristics Methods; 4.3 Summary; 4.4 Future Scope; References; 5. Additive Manufacturing with Welding; 5.1 Introduction; 5.2 Welding-Based Additive Manufacturing Techniques; 5.2.1 Powder-Based AM Technology; 5.2.2 Wire-Feed-Based WAM 5.3 Practical Considerations in WAM5.3.1 Path Planning; 5.3.2 Overhanging Feature in WAM; 5.4 Recent Developments in the Fabrication of Parts by WAM Process; 5.4.1 Advance Power Sources; 5.4.2 In-Situ Sensing and Adaptive Process Control; 5.4.3 Hybrid WAM Processes; 5.4.4 Rolling-Assisted WAM; 5.5 Summary and Conclusion; References; 6. Cares to Deal with Heat Input in Arc Welding: Applications and Modeling; 6.1 Are Heat Input and Arc Efficiency Measurable Values?; 6.2 Heat Flux Inside a Plate during Welding; 6.3 Intrinsic Errors on Calorimetry When Heat Input Is Measured
Within manufacturing, welding is by far the most widely used fabrication method used for production, leading to a rise in research and development activities pertaining to the welding and joining of different, similar, and dissimilar combinations of the metals. This book addresses recent advances in various welding processes across the domain, including arc welding and solid-state welding process, as well as experimental processes. The content is structured to update readers about the working principle, predicaments in existing process, innovations to overcome these problems, and direct industrial and practical applications. Key Features: Describes recent developments in welding technology, engineering, and science Discusses advanced computational techniques for procedure development Reviews recent trends of implementing DOE and meta-heuristics optimization techniques for setting accurate parameters Addresses related theoretical, practical, and industrial aspects Includes all the aspects of welding, such as arc welding, solid state welding, and weld overlay
9781351234801 1351234803 9781351234825 135123482X 9781351234795 135123479X 9781351234818 1351234811
10.1201/9781351234825 doi
Welding.
TECHNOLOGY & ENGINEERING / Technical & Manufacturing Industries & Trades.
TECHNOLOGY / Engineering / Chemical & Biochemical
TECHNOLOGY / Manufacturing
TECHNOLOGY / Material Science
TS227 / .A3236 2019eb
671.5/2
Cover; Half Title; Title Page; Copyright Page; Contents; Preface; Foreword; Acknowledgments; Editors; Contributors; 1. Multiple-Wire Welding GMAW and SAW; 1.1 Introduction; 1.2 Background; 1.3 Multiple-Wire Technology; 1.3.1 Twin-Wire Welding; 1.3.2 Welding with Three or More Wires; 1.4 Recent Advancements in Multiple-Wire Technology; 1.4.1 Tandem GMAW; 1.4.2 Power Source Synchronization; 1.4.3 TIME-Twin; 1.4.4 Double-Electrode GMAW and SAW; 1.4.5 Twin-Wire Indirect Arc Welding; 1.4.6 Cable-Type Welding Wire Arc Welding; 1.4.7 Metal Powered-Assisted Multiple-Wire Welding 1.5 Recent Trends in Research in Multiple-Wire Welding1.6 Conclusions; References; 2. Regulated Metal Deposition (RMD") Technique for Welding Applications: An Advanced Gas Metal Arc Welding Process; 2.1 Introduction; 2.2 Regulated Metal Deposition-The Process; 2.2.1 Working Principle; 2.2.2 Applications of RMD Process; 2.3 Summary and Future Trends; References; 3. Friction Stir Welding and Its Variants; 3.1 Introduction to Friction Stir Welding (FSW); 3.1.1 Basic Working Principle of FSW; 3.1.2 Advantages and Limitations; 3.1.3 FSW Variants; 3.2 Assisted Friction Stir Welding (A-FSW) 3.2.1 Plasma-FSW (PFSW)3.2.2 Gas Torch-FSW (GFSW); 3.2.3 Laser-FSW (LFSW); 3.2.4 Gas Tungsten Arc Welding-FSW (GTAFSW); 3.2.5 Electrically Assisted FSW (EAFSW); 3.2.6 Induction Heating Tool-Assisted FSW (i-FSW); 3.2.7 Ultrasonic Energy-Assisted FSW (UAFSW); 3.3 Friction Stir Spot Welding (FSSW); 3.4 Stationary Shoulder Friction Stir Welding (SSFSW); 3.5 Bobbin Tool or Self-Reacting Friction Stir Welding (SRFSW); 3.6 Friction Stir Channeling (FSC); 3.7 Friction Stir Processing (FSP); 3.7.1 Grain Refinement; 3.7.2 Superplasticity; 3.7.3 Surface and Bulk Composite Manufacturing 3.7.4 Casting and Fusion Weld Repair3.8 Summary; Acknowledgments; References; 4. Different Methodologies for the Parametric Optimization of Welding Processes; 4.1 Introduction; 4.2 Optimization Methodology; 4.2.1 Optimization Process; 4.2.2 Optimization Methods; 4.2.3 Taguchi's Optimization; 4.2.4 Response Surface Methodology; 4.2.5 Meta-Heuristics Methods; 4.3 Summary; 4.4 Future Scope; References; 5. Additive Manufacturing with Welding; 5.1 Introduction; 5.2 Welding-Based Additive Manufacturing Techniques; 5.2.1 Powder-Based AM Technology; 5.2.2 Wire-Feed-Based WAM 5.3 Practical Considerations in WAM5.3.1 Path Planning; 5.3.2 Overhanging Feature in WAM; 5.4 Recent Developments in the Fabrication of Parts by WAM Process; 5.4.1 Advance Power Sources; 5.4.2 In-Situ Sensing and Adaptive Process Control; 5.4.3 Hybrid WAM Processes; 5.4.4 Rolling-Assisted WAM; 5.5 Summary and Conclusion; References; 6. Cares to Deal with Heat Input in Arc Welding: Applications and Modeling; 6.1 Are Heat Input and Arc Efficiency Measurable Values?; 6.2 Heat Flux Inside a Plate during Welding; 6.3 Intrinsic Errors on Calorimetry When Heat Input Is Measured
Within manufacturing, welding is by far the most widely used fabrication method used for production, leading to a rise in research and development activities pertaining to the welding and joining of different, similar, and dissimilar combinations of the metals. This book addresses recent advances in various welding processes across the domain, including arc welding and solid-state welding process, as well as experimental processes. The content is structured to update readers about the working principle, predicaments in existing process, innovations to overcome these problems, and direct industrial and practical applications. Key Features: Describes recent developments in welding technology, engineering, and science Discusses advanced computational techniques for procedure development Reviews recent trends of implementing DOE and meta-heuristics optimization techniques for setting accurate parameters Addresses related theoretical, practical, and industrial aspects Includes all the aspects of welding, such as arc welding, solid state welding, and weld overlay
9781351234801 1351234803 9781351234825 135123482X 9781351234795 135123479X 9781351234818 1351234811
10.1201/9781351234825 doi
Welding.
TECHNOLOGY & ENGINEERING / Technical & Manufacturing Industries & Trades.
TECHNOLOGY / Engineering / Chemical & Biochemical
TECHNOLOGY / Manufacturing
TECHNOLOGY / Material Science
TS227 / .A3236 2019eb
671.5/2