This volume serves as a multidimensional perspective of welding practices in Industry 5.0 from the perspective of automation, digitization, digital twins, cobots, virtual reality, augmented reality, machine learning, artificial intelligence, and IoT ranging from rudiments to advanced applications. This book introduces the concept of Industry 5.0 in welding technologies, where the human brain collaborates with robots to achieve rapid productivity and economic efficiency. It presents the latest information on adapting and integrating Industry 5.0 in welding industries through critical…mehr
This volume serves as a multidimensional perspective of welding practices in Industry 5.0 from the perspective of automation, digitization, digital twins, cobots, virtual reality, augmented reality, machine learning, artificial intelligence, and IoT ranging from rudiments to advanced applications. This book introduces the concept of Industry 5.0 in welding technologies, where the human brain collaborates with robots to achieve rapid productivity and economic efficiency. It presents the latest information on adapting and integrating Industry 5.0 in welding industries through critical constituents such as artificial intelligence (AI), machine learning (ML), Internet of Things (IoT), digital twin, augmented and virtual reality (AR & VR), and collaborative robots (Cobots), towards intelligent welding systems. The chapter authors have comprehensively addressed the issues related to welding industries such as a shortage of welders, challenges in critical applications, creating defect-free and quality products through real-time monitoring, feedback systems, and in situ adjustments, etc. The utilization of cobots in welding technology is addressed in real-world problems to move towards a green welding environment (i.e., minimal fumes with less shielding gas) and thereby, less energy consumption. Two or more welding processes are combined to form a hybrid process where the compatibility of existing materials and novel materials can be used in 3D, 4D, and 5D printing of complex geometries. Audience Engineering research scholars, industry welding, and additive manufacturing groups. A diverse group of industries will be interested in this book, such as medical, automotive, construction, pipeline, shipping, aerospace, etc.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Syed Quadir Moinuddin, PhD, is an assistant professor in the Department of Mechanical Engineering, College of Engineering, King Faisal University, Al-Houfuf, Kingdom of Saudi Arabia. He has 14 years of research and 5 years of teaching experience in the field of manufacturing science. Through his research work, he has contributed to national and international publications via book chapters, journal articles, and conferences. Shaik Himam Saheb, PhD, is an assistant professor in the Department of Mechatronics Engineering, at ICFAI Foundation for Higher Education (deemed to be a University), Hyderabad, Telangana, India. He has published many articles in international journals and conferences. The team guided by him has received a national-level Go-Kart Championship award organized by the Indian Society of New Era Engineers. Ashok Kumar Dewangan, PhD, is an assistant professor in the Department of Mechanical Engineering, National Institute of Technology Delhi, India. He has published 25 research papers in reputed peer-reviewed international journals, conferences, and book chapters. Currently, he is working in a few areas including thermal modeling of selective laser melting, and single/twin wire gas metal arc welding. Murali Mohan Cheepu, PhD, is a research manager at Starwelds Inc. Busan, Republic of Korea. He has several years of industry experience specializing in the development of wire arc additive manufacturing processes for large-scale components, welding process design, automation, digitalization, and artificial intelligence. He has published numerous papers in scientific and conference proceedings, edited books, and patents. S. Balamurugan, PhD, is the Director of Research and Development, Intelligent Research Consultancy Services (iRCS), Coimbatore, Tamilnadu, India. He is also Director of the Albert Einstein Engineering and Research Labs (AEER Labs), as well as Vice-Chairman, Renewable Energy Society of India (RESI), India. He has published 45 books, 200+ international journals/ conferences, and 35 patents.
Inhaltsangabe
Preface xv Acknowledgments xix 1 Introduction to Industry 5.0 1 Muralimohan Cheepu, Syed Quadir Moinuddin and Ashok Kumar Dewangan 1.1 Introduction 2 1.2 Industry 4.0 8 1.3 Industry 5.0 9 2 Advancements in Welding Technologies 13 Pavan Meena, Ansari Mohd Farhan, Ramkishor Anant and Shaik Himam Saheb 2.1 Introduction 13 2.2 Quality of Weld Joint 15 2.3 Pulsed Current GMAW 16 2.4 P-GMAW Process Stability Factors 18 2.5 Suitable Pulse Parameters of Selection 18 2.6 Effect of Pulse Parameters 19 2.7 Pulsed Current GMAW Advances 22 2.8 Double-Pulsed GMAW 23 2.9 Synergic Control 24 2.10 Self-Regulating Control 25 2.11 Microcomputer Control 26 2.12 GMAW Shielding Gas Flow 27 2.13 Particle Image Velocimetry (PIV) 27 2.14 The Measurement of Oxygen (O2) Concentration 31 2.15 Spectroscopic Measurements of Plasma Temperature 31 2.16 P-GMAW Numeric Simulation 32 3 Automation in Welding Industries 37 Deepak Kumar Naik, Ved Prakash Sharma and Dinesh Kumar R. 3.1 Introduction 38 3.2 Automation Trends 41 3.3 Plasma Welding 42 3.4 Laser Welding 44 3.5 Arc Welding 45 3.6 MIG Welding 45 3.7 Resistance Welding 46 3.8 Conclusions 47 4 Digitalization of Welding Processes 49 Atla Sridhar, K. Prasanna Lakshmi, Shaik Himam Saheb and M. Siva Surya 4.1 Introduction 49 4.2 Techniques for Process Monitoring 51 4.3 Process Monitoring Applications 61 4.4 Future Directions 67 5 AI and ML in Welding Technologies 73 Suresh Goka, Gorle Shanmukha Narayana, Divya Jyothi G., Himam Saheb Shaik and Syed Quadir Moinuddin 5.1 Introduction 74 5.2 Enhancing the Welding Industry 76 5.3 Machine Learning Algorithm Types 80 5.4 Background of AI and ML 81 5.5 Weld Defects 82 5.6 Level of Weld Quality 83 5.7 Case Studies 86 5.8 Feasibility of Online Inspection of Ultrasonic Weld Quality 88 5.9 Conclusions 89 6 Digital Twin in Welding 91 Syam Kumar Chokka, M. Nagaraju and K. Nagabushan Kumar 6.1 Introduction 91 6.2 Friction Stir Welding 92 6.3 Defects in Friction Stir Welding 96 6.4 Laser Welding 102 6.5 Summary 106 7 IoT in Welding Industries 111 Harisivasri Phanindra K., S. Venukumar, Muralimohan Cheepu and Venkata Charan Kantumuchu 7.1 Introduction 111 7.2 Sensing and Analyzing Welding Data via the Internet of Things (IoT) 113 7.3 Welding Manufacture Based on IoT 114 7.4 Conclusion 127 8 VR and AR in Welding Technologies 129 Veningston K. and Dinesh Kumar Rajendran 8.1 Introduction 129 8.2 How Intelligent is AI When Coupled with VR/AR? 132 8.3 VR/AR Architecture 132 8.4 Welding Processes 132 8.5 Intelligent Welding Technology 133 8.6 Types of Intelligent Welding Processes 134 8.7 Automated Welding Examples 135 8.8 Applications of VR and AR in Automated Welding 136 8.9 AI and ML for Visual Inspection of Welds 138 8.10 Limitations in the Existing State-of-the-Art Welding Techniques 140 8.11 Conclusions 141 9 Intelligent, Clean Cobot Arc Welding Cell 143 E. Schubert, S. Rose, M. Bender, N. Spietz and T. Weber 9.1 Chances for SMEs 143 9.2 Parameters and Consumption Data 146 9.3 CO2 Footprint Methodology 148 9.4 Result Presentation 149 9.5 Conclusion 154 10 Welding-Based 3D, 4D, 5D Printing 157 Suresh Goka, Satish Narayana Srirama, Divya Jyothi G., Syed Quadir Moinuddin and Himam Saheb Shaik 10.1 Introduction 158 10.2 Differences Among 3DP, 4DP and 5DP 160 10.3 Materials Used in 3DP, 4DP and 5DP Processes 162 10.4 Machinability of Welded Components 168 10.5 Concept of 4D and 5D Printing 169 10.6 FEM-Based Analysis 172 10.7 Applications 174 10.8 Conclusions 177 11 Welding and Joining of Novel Materials 183 Rajendra Goud, Poonam S. Deshmukh, Bhavesh Jain, G. Dan Sathiaraj and Kodli Basanth Kumar 11.1 Introduction 184 11.2 Core Effects 184 11.3 Arc Welding Techniques for HEAs 186 11.4 Solid State Welding 192 11.5 Explosive Welding 197 11.6 EBW and EBC of HEAs 200 11.7 Laser Welding of HEAs 202 11.8 Laser Cladding of HEAs 206 11.9 Conclusion and Summary 208 12 Sustainability in Welding Industries 215 Y.G. Bala, Santhi B. and Dinesh Kumar R. 12.1 Introduction 215 12.2 Critical Factors for Sustainability of Welding 216 12.3 Adoptability of Sustainable Welding 218 12.4 New Welding Standards for Sustainability 218 12.5 Resource-Conserving Techniques 219 12.6 Sustainability in Welding Training 220 12.7 5S Lean Strategy for a Sustainable Welding Process 221 12.8 A-TIG Welding: A Small Step Towards Sustainable Manufacturing 223 12.9 Sustainability Indices 227 12.10 Conclusion 227 13 Global Welding Market Growth 229 Y.G. Bala and Dinesh Kumar Rajendran 13.1 Introduction 229 13.2 Patrons of Global Welding Market 233 13.3 Welding Technologies in the Global Welding Market 236 13.4 Fluxes, Wires, Electrodes, and Fillers 237 13.5 Welding Market Dynamics 238 13.6 Manpower and Labor Challenges in Global Market 239 13.7 COVID-19's Impact on Global Welding Materials Market 240 13.8 New Opportunity in the Welding Market and Advanced Applications 241 13.9 Conclusions 241 14 Quality Assurance and Control in Welding and Additive Manufacturing 245 Venkata Charan Kantumchu, Syed Quadir Moinuddin, Ashok Kumar Dewangan and Muralimohan Cheepu 14.1 Introduction 246 14.2 Quality Issues in Welding 247 14.3 Quality Issues in 3D Printing 255 14.4 Conclusion 259 15 Welding Practices in Industry 5.0: Opportunities, Challenges, and Applications 263 Suresh Goka, Syed Quadir Moinuddin, Muralimohan Cheepu and Ashok Kumar Dewangan 15.1 Introduction 264 15.2 Manufacturing Trends 264 15.3 Welding Technology 265 15.4 Variety of Materials Used by Welding for Industry 5.0 267 15.5 Virtual Reality (VR) for Welders 274 15.6 Challenges and Opportunities in Nuclear Reactor 275 15.7 Challenges of AM-Based Functionally Graded Materials Through LDED 276 15.8 Conclusion 277 References 277 Index 281
Preface xv Acknowledgments xix 1 Introduction to Industry 5.0 1 Muralimohan Cheepu, Syed Quadir Moinuddin and Ashok Kumar Dewangan 1.1 Introduction 2 1.2 Industry 4.0 8 1.3 Industry 5.0 9 2 Advancements in Welding Technologies 13 Pavan Meena, Ansari Mohd Farhan, Ramkishor Anant and Shaik Himam Saheb 2.1 Introduction 13 2.2 Quality of Weld Joint 15 2.3 Pulsed Current GMAW 16 2.4 P-GMAW Process Stability Factors 18 2.5 Suitable Pulse Parameters of Selection 18 2.6 Effect of Pulse Parameters 19 2.7 Pulsed Current GMAW Advances 22 2.8 Double-Pulsed GMAW 23 2.9 Synergic Control 24 2.10 Self-Regulating Control 25 2.11 Microcomputer Control 26 2.12 GMAW Shielding Gas Flow 27 2.13 Particle Image Velocimetry (PIV) 27 2.14 The Measurement of Oxygen (O2) Concentration 31 2.15 Spectroscopic Measurements of Plasma Temperature 31 2.16 P-GMAW Numeric Simulation 32 3 Automation in Welding Industries 37 Deepak Kumar Naik, Ved Prakash Sharma and Dinesh Kumar R. 3.1 Introduction 38 3.2 Automation Trends 41 3.3 Plasma Welding 42 3.4 Laser Welding 44 3.5 Arc Welding 45 3.6 MIG Welding 45 3.7 Resistance Welding 46 3.8 Conclusions 47 4 Digitalization of Welding Processes 49 Atla Sridhar, K. Prasanna Lakshmi, Shaik Himam Saheb and M. Siva Surya 4.1 Introduction 49 4.2 Techniques for Process Monitoring 51 4.3 Process Monitoring Applications 61 4.4 Future Directions 67 5 AI and ML in Welding Technologies 73 Suresh Goka, Gorle Shanmukha Narayana, Divya Jyothi G., Himam Saheb Shaik and Syed Quadir Moinuddin 5.1 Introduction 74 5.2 Enhancing the Welding Industry 76 5.3 Machine Learning Algorithm Types 80 5.4 Background of AI and ML 81 5.5 Weld Defects 82 5.6 Level of Weld Quality 83 5.7 Case Studies 86 5.8 Feasibility of Online Inspection of Ultrasonic Weld Quality 88 5.9 Conclusions 89 6 Digital Twin in Welding 91 Syam Kumar Chokka, M. Nagaraju and K. Nagabushan Kumar 6.1 Introduction 91 6.2 Friction Stir Welding 92 6.3 Defects in Friction Stir Welding 96 6.4 Laser Welding 102 6.5 Summary 106 7 IoT in Welding Industries 111 Harisivasri Phanindra K., S. Venukumar, Muralimohan Cheepu and Venkata Charan Kantumuchu 7.1 Introduction 111 7.2 Sensing and Analyzing Welding Data via the Internet of Things (IoT) 113 7.3 Welding Manufacture Based on IoT 114 7.4 Conclusion 127 8 VR and AR in Welding Technologies 129 Veningston K. and Dinesh Kumar Rajendran 8.1 Introduction 129 8.2 How Intelligent is AI When Coupled with VR/AR? 132 8.3 VR/AR Architecture 132 8.4 Welding Processes 132 8.5 Intelligent Welding Technology 133 8.6 Types of Intelligent Welding Processes 134 8.7 Automated Welding Examples 135 8.8 Applications of VR and AR in Automated Welding 136 8.9 AI and ML for Visual Inspection of Welds 138 8.10 Limitations in the Existing State-of-the-Art Welding Techniques 140 8.11 Conclusions 141 9 Intelligent, Clean Cobot Arc Welding Cell 143 E. Schubert, S. Rose, M. Bender, N. Spietz and T. Weber 9.1 Chances for SMEs 143 9.2 Parameters and Consumption Data 146 9.3 CO2 Footprint Methodology 148 9.4 Result Presentation 149 9.5 Conclusion 154 10 Welding-Based 3D, 4D, 5D Printing 157 Suresh Goka, Satish Narayana Srirama, Divya Jyothi G., Syed Quadir Moinuddin and Himam Saheb Shaik 10.1 Introduction 158 10.2 Differences Among 3DP, 4DP and 5DP 160 10.3 Materials Used in 3DP, 4DP and 5DP Processes 162 10.4 Machinability of Welded Components 168 10.5 Concept of 4D and 5D Printing 169 10.6 FEM-Based Analysis 172 10.7 Applications 174 10.8 Conclusions 177 11 Welding and Joining of Novel Materials 183 Rajendra Goud, Poonam S. Deshmukh, Bhavesh Jain, G. Dan Sathiaraj and Kodli Basanth Kumar 11.1 Introduction 184 11.2 Core Effects 184 11.3 Arc Welding Techniques for HEAs 186 11.4 Solid State Welding 192 11.5 Explosive Welding 197 11.6 EBW and EBC of HEAs 200 11.7 Laser Welding of HEAs 202 11.8 Laser Cladding of HEAs 206 11.9 Conclusion and Summary 208 12 Sustainability in Welding Industries 215 Y.G. Bala, Santhi B. and Dinesh Kumar R. 12.1 Introduction 215 12.2 Critical Factors for Sustainability of Welding 216 12.3 Adoptability of Sustainable Welding 218 12.4 New Welding Standards for Sustainability 218 12.5 Resource-Conserving Techniques 219 12.6 Sustainability in Welding Training 220 12.7 5S Lean Strategy for a Sustainable Welding Process 221 12.8 A-TIG Welding: A Small Step Towards Sustainable Manufacturing 223 12.9 Sustainability Indices 227 12.10 Conclusion 227 13 Global Welding Market Growth 229 Y.G. Bala and Dinesh Kumar Rajendran 13.1 Introduction 229 13.2 Patrons of Global Welding Market 233 13.3 Welding Technologies in the Global Welding Market 236 13.4 Fluxes, Wires, Electrodes, and Fillers 237 13.5 Welding Market Dynamics 238 13.6 Manpower and Labor Challenges in Global Market 239 13.7 COVID-19's Impact on Global Welding Materials Market 240 13.8 New Opportunity in the Welding Market and Advanced Applications 241 13.9 Conclusions 241 14 Quality Assurance and Control in Welding and Additive Manufacturing 245 Venkata Charan Kantumchu, Syed Quadir Moinuddin, Ashok Kumar Dewangan and Muralimohan Cheepu 14.1 Introduction 246 14.2 Quality Issues in Welding 247 14.3 Quality Issues in 3D Printing 255 14.4 Conclusion 259 15 Welding Practices in Industry 5.0: Opportunities, Challenges, and Applications 263 Suresh Goka, Syed Quadir Moinuddin, Muralimohan Cheepu and Ashok Kumar Dewangan 15.1 Introduction 264 15.2 Manufacturing Trends 264 15.3 Welding Technology 265 15.4 Variety of Materials Used by Welding for Industry 5.0 267 15.5 Virtual Reality (VR) for Welders 274 15.6 Challenges and Opportunities in Nuclear Reactor 275 15.7 Challenges of AM-Based Functionally Graded Materials Through LDED 276 15.8 Conclusion 277 References 277 Index 281
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