Description
Surface Coating and Modification of Metallic Biomaterials
Woodhead Publishing Series in Biomaterials Series
Coordinator: Wen Cuie
Language: EnglishSubjects for Surface Coating and Modification of Metallic Biomaterials:
Keywords
3D Bioprinting; Anodization; Antibacterial coatings; Antibacterial property; Apatite formation; Barrier coatings; Bioactive coatings; Biocompatibility; Biocompatiblity; Biodegradation; Biomaterials; Bone; Bone and soft tissue interfacing; Bone formation; Bone-bonding; Calcium hydroxyapatite; Calcium phosphate; Cell-material interaction; Chemical treatment; Clinical application; Coatings; Corrosion; Degradation; Electrophoretic deposition; Etching; Hip joints and spinal fusion devices; Hydroxyapatite; Laser; Magnesium; Metallic biomaterial; Metallic biomaterials; Nanoparticles; Nanosurface modification; Organic-inorganic composites; Osseointegration; Plasma; Plasma etching; Plasma grafting; Plasma immersion ion implantation; Plasma polymerization; Plasma spray; Plasma spray coating; Plasma sputtering; Plasma sterilization; Platelet adhesion; Polyanhydrides; Polyesters; Polymer-based biomaterials; Polyurethanes; Protein adsorption; Self-corrosion; Simulated body fluid; Sol-gel-derived coatings; Stainless Mg; Surface charge; Surface chemistry; Surface modification; Surface properties; Surface roughness; Surface texture; Surface wettability; Ti and its alloys; Titania; Titania and composite coatings; Uni-positive Mg+; Vapor deposition
448 p. · 15x22.8 cm · Hardback
Description
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Despite advances in alternative materials, metals are still the biomaterial of choice for a number of clinical applications such as dental, orthopedic and cardiac implants. However, there are a number of intrinsic problems associated with implanting metal in the biological environment, such as wear, corrosion, biocompatibility and toxicity, which must be addressed. Modern technology has enabled scientists to modify metal surfaces or apply special coatings to metals to improve their performance safety. Surface Coating and Modification of Metallic Biomaterials will discuss the most important modification techniques and coatings for metals, first covering the fundamentals of metals as a biomaterial and then exploring surface modification techniques and coatings.
Part One: Fundamentals of surface coating and modification of metallic biomaterials 1 Introduction to surface coating and modification for metallic biomaterials 2 Surface properties and characterization of biomedical applications
Part Two: Surface modification techniques for metallic biomaterials 3 Laser surface modification of metallic biomaterials 4 Plasma surface modification of metallic biomaterials 5 Chemical surface modification of metallic biomaterials 6 Sol-gel surface modification of metallic biomaterials 7 Biomimetic surface modification of metallic biomaterials 8 New nanoscale surface modification of metallic biomaterials
Part Three: Applications of surface modification and coatings 9 Functionalization of metallic surfaces for biomedical applications 10 Corrosion in Mg and its surface modification for biomedical applications 11 Biocompatible coatings for metallic biomaterials 12 Coatings for osseointegration of metallic biomaterials 13 Bioactive polymer-calcium phosphate composite coatings by EPD 14 Antibacterial coatings for metallic biomaterials 15 Degradable coatings for metallic biomaterials
Materials/metals scientists and R&D companies concerned with metallic medical implants in fields such as dentistry, orthopaedics and cardiology.
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.
- An expansive overview of surface modification techniques for biomedical use
- In-depth exploration of issues arising from metal biomaterial use
- Includes examples of applications in a clinical setting
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