Manufacturing and Industrial Engineering Theoretical and Advanced Technologies Science, Technology, and Management Series
Coordonnateurs : Agarwal Pankaj, Bajpai Lokesh, Singh Chandra Pal, Gupta Kapil, Davim J. Paulo
In terms of pioneering and latest technologies, present-day advancements in manufacturing and industrial engineering are required to attend to the accelerated and simultaneous demands of high quality, productivity and sustainability. This book fulfils the aforementioned obligations by offering unique comprehensive chapters on amelioration in manufacturing and industrial engineering technologies, with an emphasis on Industry 4.0.
This book sheds light on progress in the field of manufacturing and industrial engineering in terms of enhancement in productivity, quality and sustainability. It exhaustively covers the recent developments, latest trends, research and innovations that are currently being carried out. Furthermore, this title discusses 3D printing, green manufacturing, computer-integrated manufacturing, cloud manufacturing, intelligent condition monitoring, advanced forming, automation, supply chain optimization and advanced manufacturing of composites. This book also presents Industry 4.0-based technologies for mechanical and industrial engineering with both a theoretical and a practical focus.
Manufacturing and Industrial Engineering: Theoretical and Advanced Technologies is written for students, researchers, professors and engineers working in the fields of manufacturing, industrial engineering, materials science and mechanical engineering.
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 manuf
Date de parution : 09-2021
15.6x23.4 cm
Thèmes de Manufacturing and Industrial Engineering :
Mots-clés :
Green Manufacturing; Industry 4.0; 3D Printing; Advanced Engineering; Precision Engineering; Sustainable Manufacturing; CAPP System; Melt Pool; TOPSIS Method; Mam Process; TWB; SLM; Blank Holder Force; SLM Process; Cm; Laser Cladding; LSP; Banana Fibre; Laser Micro-machining; LSP Process; Stir Casting; Cm Platform; SiC Particle; Hand Layup Method; SiC Particle Reinforcement; State Dependent Riccati Equation; Resin Transfer Moulding; PBF; Multi-stage Forming; Stir Casting Method; Hybrid Composites