- Offers readers an in-depth look into the practical workflows that show "how" additive manufacturing is applied to satisfy end-use requirements
- Includes more than 300 step-by-step figures across healthcare and biomedical engineering
- Explores how additive manufacturing can be applied across the healthcare sector (medicine, digital dentistry, orthotics and prosthetics), also exploring key barriers to implementation
Table of Contents
1. Introduction 2. Additive Manufacturing Technologies
SECTION I: Additive Manufacturing in Healthcare 3. Additive Manufacturing in Medicine: Image Processing 4. Additive Manufacturing in Medicine: Surgical Design 5. Additive Manufacturing in Digital Dentistry 6. Additive Manufacturing in VSP 7. Additive Manufacturing in Orthotics and Prosthetics 8. Tissue Engineering Related Applications in Additive Manufacturing 9. Barriers to AM Implementation in Healthcare 10. Computational Simulation in Healthcare Design for Additive Manufacturing 11. CAD-to-Part Measurements and Tools 12. Value and Value-Capture from Case Studies
Authors
Onwubolu, Godfrey C. Godfrey Onwubolu holds a BEng degree (University of Benin), a MSc degree in mechanical engineering (Aston University) and a PhD in computer-aided design (Aston University). His industrial experience is in manufacturing engineering in West Midlands, England. He was a consultant to a centre of innovation for enabling small-to-medium enterprises (SMEs) in the manufacturing sector.Godfrey works mainly in three areas: computer-aided design (CAD), additive manufacturing, and inductive modelling. He has published two textbooks on CAD: One is heavily used in many North American universities and colleges, and the other is listed by London's Imperial College Press as one of the top-10 bestsellers. Godfrey currently works in the area of additive manufacturing, popularly known as 3D printing, where he continues to investigate the functionality of additive manufactured parts based on machine input parameters, in order to make users understand the characteristics of additive manufacturing technologies.He is internationally recognized for his work in inductive modelling, especially in Europe, where he gives public lectures and examines doctoral theses on the subject in universities. He is currently the lead researcher at Sheridan College in applying this technology to the joint Sheridan-Nexflow project for studying the behaviours of Nexflow air products based on their operational parameters.
Godfrey has authored more than 130 papers in international journals/conference proceedings and at least eight textbooks. For several years, he has been serving on the International Program Committee for the Inductive Modeling Conference in Europe. He is currently on the Editorial Boards of International Journal of Manufacturing Engineering and Production Planning & Control. He continues to use his expertise in the domains of computer-aided design, additive manufacturing, and inductive modelling to impart knowledge to students as an engineering and technology educator, and to advance productivity in the manufacturing industry sector in Canada and beyond.