Metallic Biomaterials Processing and Medical Device Manufacturing Woodhead Publishing Series in Biomaterials Series
Coordonnateur : Wen Cuie
Metallic Biomaterials Processing and Medical Device Manufacturing details the principles and practices of the technologies used in biomaterials processing and medical device manufacturing. The book reviews the main categories of metallic biomaterials and the essential considerations in design and manufacturing of medical devices. It bridges the gap between the designing of biomaterials and manufacturing of medical devices including requirements and standards. Main themes of the book include, manufacturing, coatings and surface modifications of medical devices, metallic biomaterials and their mechanical behaviour, degradation, testing and characterization, and quality controls, standards and FDA regulations of medical devices.
The leading experts in the filed discuss the requirements, challenges, recent progresses and future research directions in the processing of materials and manufacturing of medical devices. Metallic Biomaterials Processing and Medical Device Manufacturing is ideal for those working in the disciplines of materials science, manufacturing, biomedical engineering, and mechanical engineering.
1. Introduction to biomedical manufacturing2. Material selection for medical devices3. General Manufacturing route for medical devices4. Machining of medical device components5. Powder metallurgy in manufacturing of medical devices6. Selective laser sintering in biomedical manufacturing7. Selective laser melting in biomedical manufacturing8. Electron beam melting in biomedical manufacturing9. Manufacturing of cardiovascular stents10. Manufacturing of dental implants11. Coatings on metallic implants for biomedical applications12. Surface modifications of metallic biomaterials13. Mechanical testing of metallic biomaterials14. Corrosion of metallic biomaterials15. Characterization techniques for metallic biomaterials16. Quality control and standards in manufacturing of medical devices
Cuie has published over 400 peer reviewed articles with an h-index 51 and citations over 9919 (Google Scholar). Cuie has supervised 10 postdoctoral research projects and 28 post graduate students to completion. She is an editorial board member for the journals of Acta Biomaterialia, Bioactive Materials, and International Journal of Extreme Manufacturing. Her research interests include new biocompatible titanium, magnesium, iron, zinc and their alloys and scaffolds for biomedical applications, surface modification, nanostructured metals, alloys and composites, metal foams and nanolaminates.
- Reviews key topics of biomaterials processing for medical device applications including metallic biomaterials and their mechanical behavior, degradation, testing and characterization
- Bridges the gap between biomaterials design and medical device manufacturing
- Discusses the quality controls, standards, and FDA requirements for biomaterials and medical devices
Date de parution : 08-2020
Ouvrage de 604 p.
15x22.8 cm
Thèmes de Metallic Biomaterials Processing and Medical Device... :
Mots-clés :
3D printing; Additive manufacturing; Alloying; Antimicrobial; Biocompatibility; Biodegradable stent materials; Biomaterials; Biomedical applications; Biomedical device manufacturing; Biomedical devices; Biomedical manufacturing; Bone; Bone tissue engineering; Calcium phosphate; Capability analysis; Cardiovascular stent; Characterization; Classification; Classification of medical devices; Cobalt-chrome; Corrosion; Cytotoxicity; Dental; Dental disease; Dental implants; Dental instruments; Diamond; Diffraction; Drug delivery devices; Electrochemistry; Electron beam melting; Fatigue; Genotoxicity; Hydrogen evolution; Implant; Implants; In vivo; Laser and process parameters; Laser–; metal powder interaction; Lean manufacturing; Magnesium; Magnesium alloys; Material properties; Material selection; Mechanical testing; Metal powder; Metallic biomaterials; Metallic materials; Microscopy; Orthodontics; Orthopedic; Osseointegration; Permanent stent materials; Powder metallurgy; Precious metal alloys; Quality; Quality control; Quality standards; Regulations; Scaffolds; Scaffolds and implants; Selective laser melting; Selective laser sintering; Stainless steel; Statistical process control; Stent design; Stent evaluation; Stent manufacturing; Surface modification; Tantalum alloys; Tensile test; Thermomechanical processing; Tissue engineering; Titanium; Titanium alloys; Tooth loss; Wear; Weight loss; Zinc