This volume comprises the select proceedings of the 3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering (FLAME) 2022. It aims to provide a comprehensive and broad-spectrum picture of the state-of-the-art research and development in engineering design. Various topics covered include engineering system, synthesis of mechanism, failure analysis, solid and structural mechanics, contact mechanics, multi-body dynamics, fracture mechanics, vibration and acoustics, etc. This volume will prove a valuable resource for researchers and professionals in the area of…mehr
This volume comprises the select proceedings of the 3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering (FLAME) 2022. It aims to provide a comprehensive and broad-spectrum picture of the state-of-the-art research and development in engineering design. Various topics covered include engineering system, synthesis of mechanism, failure analysis, solid and structural mechanics, contact mechanics, multi-body dynamics, fracture mechanics, vibration and acoustics, etc. This volume will prove a valuable resource for researchers and professionals in the area of mechanical engineering, especially engineering design and allied fields.
Dr. Rohit Sharma is presently working as an Assistant Professor in the Department of Mechanical Engineering, Amity University, India. He completed his B.Tech. and M.Tech. from Kurukshetra University, India. Dr. Sharma received his Ph.D. degree in 2014 from Dayalbagh Educational Institute, India. He has over ten years of teaching and research experience. His area of research is ergonomics, design, hand arm vibration, whole body vibration, and metal matrix composites. He has published forty research papers in peer-reviewed SCI and Scopus indexed journals and conferences. He has presented more than twenty research papers at international and national conferences. Dr. Ravindra Kannojiya is working as a full-time academician since the last 8 years. He has a Ph.D. in Mechanical Engineering from Delhi Technological University, India, and M.Tech (Thermal Engineering) from the National Institute of Technology (NIT) Silchar, India. He also holds B.Tech. (Mechanical & Automation Engineering) from Govind Ballabh Pant Government Engineering College, GGSIPU, Delhi. He has published research papers in reputed international journals and conferences. He has also published patents from his research work. He is working in the area of thermal engineering, optimization algorithms, energy management, and intelligent systems. Dr. Naveen Garg is Sr. Principal Scientist and Head, Acoustics and Vibration Standards in CSIR-National Physical Laboratory, New Delhi working in the field of sound and vibrations since past 18 years. He is a mechanical engineer specializing in machine design, vibrations and acoustics, measurement science. He is currently working in development and up-gradation of primary standards of sound pressure and vibration amplitude and R&D in applied acoustics. He has done his Doctorate in Mechanical Engineering from Delhi Technological University (DTU) India, and M.Tech. in Machine Design from Indian Institute of Technology (IIT) Delhi. He has been involved in many consultancy and sponsored projects pertaining to Environmental Impact Assessment studies in respect of noise and vibration for government bodies like Central Pollution Control Board (CPCB), Archaeological Survey of India (ASI), Delhi Metro Rail Corporation (DMRC), Bangalore Metro Rail Corporation Limited (BMRCL), India etc. He has published many papers in national and international journals in the field of acoustics and vibrations and has been actively involved in the Key Comparison exercises in Acoustics and Vibration metrology with other National Metrology Institutes (NMIs) of the world. He has been Managing Editor of MAPANJournal of Metrology Society of India published by Springer and reviewer of many international journals and has enormously contributed towards evaluation, analysis and control of noise pollution. He was awarded APMP Iizuka Young Metrologist Prize for Developing Economies by Asia Pacific Metrology Programme (APMP) Secretariat, Japan in November, 2017 for his notable contributions to acoustics and vibration metrology. Dr. Sachin S. Gautam is currently an Assistant professor in the Department of Mechanical Engineering, Indian Institute of Technology (IIT) Guwahati. He carried out his post-doctoral research at AICES, RWTH Aachen University, Germany. He finished his Ph.D. and M.Tech. in the area of high velocity impact problems from IIT Kanpur. Dr. Gautam has undertaken projects from SERB, DST and VSSC, ISRO. He has recently received funding to enhance the functionalities of ISRO's structural analysis software tool FEASTSMT. Also, his students have been working on research projects in joint collaboration with Siemens and Cummins. He has guided two Ph.D. students and further supervised eight students. He has guided 19 M.Tech. students. He has published around 15 book chapters, 22 journal papers, and 50 national/international; conference publications. His current area of research is in computational contact mechanics, isogeometric analysis, GPU computing, application of machine learning in computational mechanics.
Inhaltsangabe
Estimation of Lacunar Permeability in Anatomical Regions of Femoral Cortex: Endocortical vs. Periosteal.- Design of Efficient Finite Elements using Deep Learning Approach.- Design of Efficient Quadrature Scheme in Finite Element Using Deep Learning.- Accelerating Finite Element Assembly on a GPU.- Design and Optimization of Path Planning Bot Based on ROS.- Design and Fabrication of PLA Printed Wearable Exoskeleton with 7 DOF for Upper Limb Physiotherapy Training and Rehabilitation.- Framework for Design and Control of Automatic Stone - Glass Separator.- Buckling Analysis of Piston Rod for Hydraulic Cylinder of Cotton Bale Press Machine.- Manufacturing Process Related Challenges of Additive Manufactured Parts: A Review.- Modelling of Kinematic Chains and Mechanisms with Special Emphasis on Multi-linked Jointed Chain Mechanisms.- Design And Analysis of a Spherical Joint Mechanism for Robotic Manipulators.
Estimation of Lacunar Permeability in Anatomical Regions of Femoral Cortex: Endocortical vs. Periosteal.- Design of Efficient Finite Elements using Deep Learning Approach.- Design of Efficient Quadrature Scheme in Finite Element Using Deep Learning.- Accelerating Finite Element Assembly on a GPU.- Design and Optimization of Path Planning Bot Based on ROS.- Design and Fabrication of PLA Printed Wearable Exoskeleton with 7 DOF for Upper Limb Physiotherapy Training and Rehabilitation.- Framework for Design and Control of Automatic Stone - Glass Separator.- Buckling Analysis of Piston Rod for Hydraulic Cylinder of Cotton Bale Press Machine.- Manufacturing Process Related Challenges of Additive Manufactured Parts: A Review.- Modelling of Kinematic Chains and Mechanisms with Special Emphasis on Multi-linked Jointed Chain Mechanisms.- Design And Analysis of a Spherical Joint Mechanism for Robotic Manipulators.
Estimation of Lacunar Permeability in Anatomical Regions of Femoral Cortex: Endocortical vs. Periosteal.- Design of Efficient Finite Elements using Deep Learning Approach.- Design of Efficient Quadrature Scheme in Finite Element Using Deep Learning.- Accelerating Finite Element Assembly on a GPU.- Design and Optimization of Path Planning Bot Based on ROS.- Design and Fabrication of PLA Printed Wearable Exoskeleton with 7 DOF for Upper Limb Physiotherapy Training and Rehabilitation.- Framework for Design and Control of Automatic Stone - Glass Separator.- Buckling Analysis of Piston Rod for Hydraulic Cylinder of Cotton Bale Press Machine.- Manufacturing Process Related Challenges of Additive Manufactured Parts: A Review.- Modelling of Kinematic Chains and Mechanisms with Special Emphasis on Multi-linked Jointed Chain Mechanisms.- Design And Analysis of a Spherical Joint Mechanism for Robotic Manipulators.
Estimation of Lacunar Permeability in Anatomical Regions of Femoral Cortex: Endocortical vs. Periosteal.- Design of Efficient Finite Elements using Deep Learning Approach.- Design of Efficient Quadrature Scheme in Finite Element Using Deep Learning.- Accelerating Finite Element Assembly on a GPU.- Design and Optimization of Path Planning Bot Based on ROS.- Design and Fabrication of PLA Printed Wearable Exoskeleton with 7 DOF for Upper Limb Physiotherapy Training and Rehabilitation.- Framework for Design and Control of Automatic Stone - Glass Separator.- Buckling Analysis of Piston Rod for Hydraulic Cylinder of Cotton Bale Press Machine.- Manufacturing Process Related Challenges of Additive Manufactured Parts: A Review.- Modelling of Kinematic Chains and Mechanisms with Special Emphasis on Multi-linked Jointed Chain Mechanisms.- Design And Analysis of a Spherical Joint Mechanism for Robotic Manipulators.
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