This book explains usage of additive manufacturing (AM) for the printing of bio-medical implants and prosthetics. It elaborates basics of printing of bio-medical implants and prosthetics including necessity, printing processes, materials, and standards followed by discussion of involved technologies, design and optimization, and post processing. It further highlights patient response and risks of bio-medical implants including future scope. Sustainability and Environmental concerns while AM of implants and process optimization are also covered.
- Provides wide coverage of the contents related to additive manufacturing (AM) of bio implants and prosthetics
- Details fabrication details, properties and features of fabricated implants, their testing and characterization
- Discusses environmental issues and optimization
- Covers economic implications of AM in biomedical industry Includes dedicated chapters on Industry 4.0 interventions and sustainability
This book is aimed at graduate students and researchers in bioengineering, materials science, implant design and fabrication.
This book explains usage of additive manufacturing for the printing of bio-medical implants and prosthetics. It elaborates basics of printing of bio-medical implants and prosthetics including necessity, printing processes, materials, and standards followed by discussion of involved technologies, design and optimization, and post processing.
Chapter 1: Implementation of Additive Manufacturing in Biomedical
Chapter 2: Pre and post processing techniques in additive manufacturing for
orthopedic implants
Chapter 3: Biomedical Standards and Regulations
Chapter
4: Additive Manufacturing Technologies and Materials in the Fabrication of
Personalised Implantable Prosthetics
Chapter 5: Additive manufacturing in 3D
printed scaffolds for tissue engineering applications
Chapter 6: Mechanical
and Tribological properties of Polymethylmethacrylate-based dental
biocomposites
Chapter 7: Development of biocomposites-based prosthesis foot
using additive manufacturing processes
Chapter 8: Technologies assisting
additive manufacturing in biomedical
Chapter 9: Insights of Additive
Manufacturing Technology for Biomedical Applications
Chapter 10: Industry 4.0
Interventions in Additive Manufacturing of Bio-Implants
Chapter 11: Economic
Implications of Additive Manufacturing in the Biomedical Industry
Pawan Kumar Rakesh is an assistant professor in the Department of Mechanical Engineering at the National Institute of Technology Uttarakhand in Srinagar, Garhwal, India. He has previously served as the Head of the Department of Mechanical Engineering (20132016) and as Associate Dean (Faculty Welfare) from 2016 to 2020. During his tenure at this growing institution, he has gained extensive experience in lab development, academic structuring, and student welfare. Since 2018, he has also been the coordinator of the Design Innovation Center at NIT Uttarakhand. Dr. Rakesh has authored 90 articles published in esteemed international and national journals and conferences. Additionally, he has edited six books.
Rakesh has supervised four PhD and six MTech students and was honored with the Best Faculty Award in 2023.
Pravin Kumar is a Postdoctoral Researcher in the Department of Mechanical and Energy Engineering at Southern University of Science and Technology in Shenzhen, China. Previously, he worked at the Indian Institute of Technology Bombay, India as a Postdoctoral Researcher. He holds a PhD in Additive Manufacturing from the Indian Institute of Technology Indore, where he has developed theoretical modes to predict the dimensional accuracy and surface roughness of the metallic parts manufactured by Micro-Plasma Transferred Arc Additive Manufacturing. He received his M.Tech in the specialization of Manufacturing Technology from National Institute of Technology Agartala and his B.Tech in Mechanical Engineering from Uttar Pradesh Technical University. He has an excellent publication record of his work which includes the formulation of analytical models, investigation of dimensional and geometrical tolerances, surface roughness, high-temperature oxidation behaviour, and post-processing of AM parts. His research interests include metal additive manufacturing, directed energy deposition, wire and arc additive manufacturing, and non-conventional machining processes.
