"Advances in manufacturing and industrial engineering in terms of advanced and latest technologies are required nowadays to attend the accelerated demands of high quality, productivity, and sustainability simultaneously. This book fulfills the requirement by offering unique comprehensive chapters on advances in manufacturing and industrial engineering technologies with an emphasis on Industry 4.0. This book sheds light on advances in the field of manufacturing and industrial engineering for enhancement in productivity, quality, and sustainability. It comprehensively covers the recent developments, latest trends, research, and innovations being carried out. 3D printing, green manufacturing, computer integrated manufacturing, cloud manufacturing, intelligent condition monitoring, advanced forming, automation, supply chain optimization, and advanced manufacturing of composites are covered in this book. Industry 4.0 based technologies for mechanical and industrial engineering are also presented with both a theoretical and a practical focus. This book is written for students, researchers, professors, and engineers working in the fields of manufacturing, industrial, materials science, and mechanical engineering"--
Advances in manufacturing and industrial engineering in terms of advanced and latest technologies are required nowadays to attend the accelerated demands of high quality, productivity, and sustainability simultaneously. This book fulfils the requirement by offering unique comprehensive chapters on advances in manufacturing and industrial engineering technologies with an emphasis on Industry 4.0.
This book sheds light on advances in the field of manufacturing and industrial engineering for enhancement in productivity, quality, and sustainability. It comprehensively covers the recent developments, latest trends, research, and innovations being carried out. 3D printing, green manufacturing, computer integrated manufacturing, cloud manufacturing, intelligent condition monitoring, advanced forming, automation, supply chain optimization, and advanced manufacturing of composites are covered in this book. Industry 4.0 based technologies for mechanical and industrial engineering are also presented with both a theoretical and a practical focus.
This book is written for students, researchers, professors, and engineers working in the fields of manufacturing, industrial, materials science, and mechanical engineering.
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xi | |
| Editor Biographies |
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xiii | |
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Chapter 1 An Overview on the Role of Cloud Manufacturing in Modern Industries |
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1 | (20) |
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2 | (1) |
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1.2 The Role of Cloud Manufacturing in Production Scheduling System |
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2 | (3) |
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1.3 Role of Cloud Manufacturing in Product Customisation |
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5 | (7) |
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1.4 Role of Cloud Manufacturing in Product Lifecycle Management |
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12 | (2) |
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1.5 Cloud Computing-Based PLM |
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14 | (3) |
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17 | (1) |
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18 | (3) |
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Chapter 2 Bonding and Cladding of Composite Materials |
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21 | (22) |
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22 | (1) |
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22 | (4) |
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2.3 Friction Surface Cladding |
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26 | (3) |
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29 | (4) |
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33 | (2) |
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35 | (2) |
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2.7 Plasma Surface Cladding |
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37 | (2) |
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39 | (1) |
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39 | (4) |
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Chapter 3 A Brief Review on Green Manufacturing |
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43 | (10) |
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43 | (2) |
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3.2 Implementation of Green Manufacturing |
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45 | (1) |
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3.3 Green Tools and Principles |
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46 | (2) |
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3.4 Drivers and Barriers for Green Manufacturing |
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48 | (2) |
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3.5 Applications of Green Manufacturing |
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50 | (1) |
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50 | (1) |
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51 | (2) |
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Chapter 4 A Review on Additive Manufacturing Technologies |
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53 | (20) |
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53 | (1) |
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4.2 Additive Manufacturing Processes |
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54 | (7) |
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61 | (2) |
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63 | (5) |
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68 | (1) |
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68 | (1) |
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69 | (4) |
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Chapter 5 Advancements in Post-Processing of Metal Additive Manufactured Components |
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73 | (20) |
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73 | (4) |
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5.2 Post-Processing Techniques |
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77 | (10) |
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87 | (1) |
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88 | (5) |
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Chapter 6 Microstructure, Mechanical and Corrosion Behaviour of Cu-SiC Composites Fabricated by Stir Casting Method |
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93 | (10) |
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93 | (2) |
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6.2 Experimental Procedure |
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95 | (2) |
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6.3 Results and Discussion |
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97 | (3) |
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100 | (1) |
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101 | (2) |
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Chapter 7 Industry 4.0-Based Fault Diagnosis of a Roller Bearing System using Wave Atom Transform and Artificial Neural Network |
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103 | (18) |
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104 | (1) |
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105 | (4) |
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109 | (6) |
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7.4 Experimental Results and Discussion |
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115 | (2) |
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117 | (1) |
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118 | (1) |
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119 | (2) |
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Chapter 8 Advanced Sheet Metal Forming Using Finite Element Analysis |
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121 | (14) |
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Gajendra Kumar Nhaichaniya |
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121 | (2) |
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123 | (1) |
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124 | (3) |
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8.4 Simulation Results and Discussion |
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127 | (4) |
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8.5 Validation of Simulation Results |
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131 | (1) |
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132 | (1) |
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132 | (3) |
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Chapter 9 An Overview of Human Bone, Biomaterials and Implant Manufacturing |
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135 | (26) |
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136 | (1) |
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9.2 Human Bone Composition, Regeneration and Properties |
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136 | (5) |
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9.3 Bone Scaffold, Grafting or Implantation |
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141 | (1) |
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9.4 Materials for Bone Implant |
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142 | (10) |
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152 | (2) |
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154 | (7) |
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Chapter 10 Hybrid Optimisation for Supply Chain Management: A Case of Supplier Selection by CRITIC, ARAS and TOPSIS Techniques |
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161 | (14) |
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161 | (2) |
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163 | (4) |
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167 | (4) |
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10.4 Result and Conclusion |
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171 | (2) |
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173 | (2) |
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Chapter 11 Advances in Sheet Metal Stamping Technology: A Case of Design and Manufacturing of a Car Door Inner Panel Using a Tailor Welded Blank |
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175 | (16) |
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176 | (2) |
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178 | (1) |
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178 | (1) |
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11.4 Finite Element Analysis |
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178 | (4) |
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182 | (1) |
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183 | (4) |
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187 | (1) |
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11.8 Results and Validation |
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187 | (1) |
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188 | (1) |
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188 | (3) |
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Chapter 12 Advanced Fabrication of Banana Fibre-Based Hybrid Composites |
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191 | (20) |
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191 | (2) |
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12.2 Modern Fabrication of Composites |
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193 | (4) |
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197 | (9) |
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206 | (1) |
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206 | (5) |
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Chapter 13 Effect of Microstructure and Post-Processing on the Corrosion Behaviour of Metal Additive Manufactured Component |
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211 | (18) |
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211 | (3) |
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214 | (1) |
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13.3 Corrosion Behaviour of MAM-Built Components |
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215 | (9) |
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224 | (1) |
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225 | (4) |
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Chapter 14 A Review of Nonlinear Control for Electrohydraulic Actuator System in Automation |
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229 | (16) |
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229 | (1) |
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14.2 Review of System Modelling |
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230 | (4) |
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14.3 Review of Control Strategies |
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234 | (5) |
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239 | (1) |
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240 | (5) |
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Chapter 15 Study of Mechanical Properties of Photo Polymer Lab-on-a-Chip Structures Fabricated by Scan-Based Microstereolithography |
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245 | (16) |
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246 | (1) |
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15.2 Layer-by-Layer Fabrication of Test Specimens for Characterisation |
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246 | (1) |
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247 | (2) |
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15.4 Fabrications and Testing |
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249 | (4) |
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15.5 Results and Discussions |
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253 | (7) |
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260 | (1) |
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260 | (1) |
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Chapter 16 An Insight into Computer Integrated Manufacturing |
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261 | (22) |
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261 | (2) |
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16.2 Sub-Support Systems of CIM |
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263 | (8) |
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16.3 Advancements and Latest Technology in CIM |
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271 | (7) |
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278 | (1) |
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278 | (5) |
| Index |
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283 | |
Pankaj Agarwal is working as Professor in mechanical Engineering Department in Samrat Ashok technological Institute Vidisha (M.P.) India. He got PhD in Mechanical Engineering from BU Bhopal India. Currently, he is the HOD mechanical engineering. Advanced machining processes, Micro manufacturing, sustainable manufacturing, 3D printing are the field of interest. He has authored many articles in Journals and International conferences. He is having a vast experience of more than 25 years in research, teaching , and training in the field of mechanical and industrial engineering.
Lokesh Bajpai is working as Professor in Mechanical Engineering Department at Samrat Ashok technological Institute Vidisha (M.P.) India. He has 36 years of teaching and research experience. He has guided several M.E. and PHD Theses in manufacturing area specially in Advance Production and Computer Integrated Manufacturing. He obtained PhD from Barkhatullah University Bhopal India. Advanced machining processes, flexible manufacturing system, supply chain management, and 3D printing are the fields of his interest. He has authored many journal and conference articles. He has been conducting industrial research projects and training programs in various topics i.e. TQM, Supply chain management, production planning and control, and maintenance management of industrial engineering.
Chandra Pal Singh is working as Assistant professor in mechanical Engineering Department in Samrat Ashok technological Institute Vidisha (M.P.) India. He has 18 years of teaching experience. He got PhD in Mechanical Engineering from Maulana Azad National Institute of Technology Bhopal India. Metal Forming, Deep Drawing, Fatigue failure, Finite element analysis are the field of his interest. He has authored several articles that published in International Journals and conference proceedings. He is currently supervising many PG students who are conducting cutting edge research in advanced manufacturing field.
Kapil Gupta is working as Associate Professor in the Dept. of Mechanical and Industrial Engineering Technology at the University of Johannesburg. He obtained Ph.D. in mechanical engineering with specialization in Advanced Manufacturing. Advanced machining processes, sustainable manufacturing, green machining, precision engineering and gear technology are the areas of his interest. He has authored several SCI/ISI Journal and International Conference articles. He has also authored and edited 12 international books on hybrid machining, advanced gear manufacturing, micro and precision manufacturing, and sustainable manufacturing. He is an editorial board member of many international journals. He has also delivered keynote, invited and distinguished speeches in international conferences and symposiums, and seminar talks at international universities.
J. Paulo Davim received his PhD degree in Mechanical Engineering in 1997, MSc degree in Mechanical Engineering (Materials and Manufacturing Processes) in 1991, Mechanical Engineering degree (five years) in 1986, from the University of Porto (FEUP), Aggregate title (Full Habilitation) from the University of Coimbra in 2005 and DSc from London Metropolitan University in 2013. He is Eur Ing by FEANI-Brussels and Senior Chartered Engineer by the Portuguese Institution of Engineers with an MBA and Specialist title in Engineering and Industrial Management. Currently, he is a Professor at the Department of Mechanical Engineering of the University of Aveiro, Portugal. He has more than 30 years of teaching and research experience in manufacturing, materials, mechanical and industrial engineering with special emphasis in machining and tribology. He has also interest in management, engineering education and higher education for sustainability.
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