Chapter 1: Finite Element Analysis of Melt Pool Characteristics in Selective Laser Spot Melting on a Powder Layer.- Chapter 2: Thermal Transport Phenomena in Multi-Layer Deposition using Arc Welding Process.- Chapter 3: Comparison of Bonding strength of Ti-6Al-4V alloy deposit and substrate processed by laser metal deposition.- Chapter 4: Study on Rayleigh-Benard convection in Laser Melting process.- Chapter 5: ENHANCING SURFACE FINISH OF FUSED DEPOSITION MODELLING PARTS.- Chapter 6: Development and Analysis of Accurate and Adaptive FDM Post Finishing Approach.- Chapter 7: Toolpath Generation for Additive Manufacturing using CNC Milling Machine.- Chapter 8: Modelling of Heat Transfer in Powder Bed Based Additive Manufacturing Process using Lattice Boltzmann Method.- Chapter 9: Effect of process parameters on mechanical properties of solidified PLA parts fabricated by 3D Printing process.- Chapter 10: Metal Powder Based Additive Manufacturing Technologies - Business Forecast.-Chapter 11: DESIGN AND DEVELOPMENT OF DRUG DELIVERY SYSTEM FOR CHRONIC WOUND USING ADDITIVE MANUFACTURING.-Chapter 12: DESIGN AND DEVELOPMENT OF ORTHOSIS FOR CLUBFOOT DEFORMITY.-Chapter 13: Optimization of Selective Laser Sintering Process Parameters on Surface Quality.-Chapter 14: Reconstruction of Damaged Parts by Integration Reverse Engineering (RE) and Rapid Prototyping (RP).-Chapter 15: The Impact of Additive Manufacturing on Indian GDP.- Chapter 16: OPTIMIZATION OF THE PRINT QUALITY BY CONTROLLING THE PROCESS PARAMETERS ON 3D PRINTING MACHINE.-Chapter 17: A review on current state of art of Bioprinting.-Chapter 18: A turnkey manufacturing solution for customized insoles using Material Extrusion process.-Chapter 19: Parameter optimization for polyamide in selective laser sintering based on mechanical behavior.- Chapter 20: Analysis of Adjacent Vertebrae Post Vertebroplasty.-Chapter 21: Design and processing of functionally graded Material: Review and Current status of research.-Chapter 22: Development of Electrical Discharge Machining (EDM) Electrode using Fused Deposition Modeling (FDM).- Chapter 23: State of the Art of Powder Bed Fusion Additive Manufacturing: A Review.-Chapter 24: DISTORTION IN METAL ADDITIVE MANUFACTURED PARTS.-Chapter 25: Laser Metal Deposition of Titanium Parts with Increased Productivity.
Mr. Jyothish Kumar is the Founder CEO of Rapitech Solutions Inc.,
Bangalore and the Founder President of the Additive Manufacturing
Society of India (AMSI), Bangalore. He received his Bachelor of
Engineering in Mechanical Engineering from the National Institute
of Engineering, Mysore and his Master's degree in Rapid Product
Development from De Montfort University, UK. Mr. Kumar is currently
pursuing PhD research in Aerospace Applications of Additive
Manufacturing Technologies. Prior to that he served in various
areas of the Mechanical Engineering industry, such as Quality
Assurance, Marketing, Sales and Product Development in India and
abroad. He has specialized experience in Quality Management Systems
and Rapid Product Development. Mr. Kumar is currently the Managing
Editor of the Additive Manufacturing Technology Magazine, the only
journal for in 3D Printing and Additive Manufacturing Technologies
in India. Professor Pulak M. Pandey is currently serving as a
Professor in the Department of Mechanical Engineering in Indian
Institute of Technology (IIT) Delhi. After completing his B.Tech
from H.B.T.I. Kanpur in 1993, he went on to do his Master's and PhD
from IIT Kanpur, where his PhD was in the area of Additive
Manufacturing/3D Printing. In IIT Delhi, Dr Pandey diversified his
research areas in the field of micro and nano finishing,
micro-deposition and also continued working in the area of 3D
Printing. He supervised 21 Ph.D.s and more than 33 M.Tech. theses
in last 10 years and also filed 13 Indian patent applications. He
has approximately 119 international journal papers and 44
international/national refereed conference papers to his credit.
These papers have been cited for more than 3056 times with h-index
as 26. He received Highly Commended Paper Award by Rapid
Prototyping Journal for the paper "Fabrication of three dimensional
open porous regular structure of PA 2200 for enhanced strength of
scaffold using selective laser sintering" published in 2017. Many
of the B. Tech and M. Tech projects he has supervised have received
awards and accolades, and his students have won the GYTI (Gandhian
Young Technological Innovation) Award in 2013, 2015 and 2017. Prof
Pandey is the recipient of the Outstanding Young Faculty Fellowship
(IIT Delhi) sponsored by Kusuma Trust, Gibraltar and J.M. Mahajan
outstanding teacher award of IIT Delhi. Professor David Ian
Wimpenny is currently the Chief Technologist at the Manufacturing
Technology Centre (MTC), Coventry, UK. He joined the MTC as a
Technology Manager in 2011 and worked as a full time Technologist
of the Component Technology Group at the MTC. He is the Chairman of
the Additive Manufacturing & 3D Printing Forum for the HVM
Catapult. His past roles include being Head of the research at De
Montfort University, Leicester, UK from 2009 to 2011, and Director
of the Additive Manufacturing Technology Group at the Department of
Engineering and Technology, De Montfort University, from 2001 to
2011. Professor Wimpenny is also a member of the Additive
Manufacturing Special Interest Group (AM-SIG), which was
established by the Technology Strategy Board to develop a road map
for the UK AM sector. His major activities are in the areas of
Additive Manufacturing, Rapid Product Development, Laser Printing,
Surface Engineering and Manufacturing Production Tooling. He has
published more than 60 papers in international/national journals
and presented papers at seminars and international conferences. He
holds three patents for Rapid Prototyping, Reverse Engineering and
Computer Aided Design. Professor Wimpenny also serves on the review
committee of several reputed International Journals like Additive
Manufacturing, Rapid Prototyping, Materials Processing Technology
etc. He has two books to his credit, and was a co-editor of the
Rapid Prototyping Case Book, Professional Engineering
Publications.
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