Bioscience and Bioengineering of Titanium Materials

-10% portes grátis

Adicionar

210,94 € 189,85 €

Adicionar
210,94 € 189,85 €

título Bioscience and Bioengineering of Titanium Materials

autor Oshida, Yoshiki

editor Elsevier Science & Technology

data de edição 12/2012

número de páginas 518

capa Mole

idioma Inglês

ISBN13 9780444602367

prazo de entrega 15 a 20 dias

peso (gramas) 690

Descrição não disponível.

1. Introduction 2. Materials Classification 3. Chemical and Electrochemical Reactions 4. Oxidation and Oxides 5. Mechanical and Tribological Behaviors 6. Biological Reaction 7. Implant-Related Biological Reaction 8. Implant Application 9. Other Applications 10. Fabrication Technologies 11. Surface Modifications 12. Advanced Materials, Technologies and Processes

Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.

(alpha+beta)-Ti; Acid treatment; Alkali treatment; Allergy; Alpha-Ti; Anatase; Beta-Ti; Biocompatibility; Biomechanocompatibility; Biotribology; Body fluid; Bone grafting; Bone healing; Brookite; Ca-P coating; Casting; Cell adhesion; Cell proliferation and growth; Cement versus screw fixation; Collagen coating; Coloration; Commercially pure titanium; Controlled porosity; Corrosion; Crown and bridge; Cytocompatibility; Denture base; Discoloration; Endodontic files and reamers; Engineering-medicine bridging; Evidence-based learning; Extraoral implant; Fatigue; Fluoride-containing toothpaste; Foamed metal; Fracture and fracture toughness; Fretting; Functionally graded materials and structure; Fundamental mechanical properties; Galvanic corrosion; Glassy metal; Hemocompatibility; Hydroxyapatite coating; Ingrowth; Intraoral implant; Laser processing; MRI compatibility; Machining; Material development; Mechanical and biological environments; Metal injection molding; Microbiology-induced corrosion; Nanotechnology; Near-net shape forming; Needs-oriented materials; Net-shape forming; Ni-free Ti-based alloys; Orthodontic archwires; Osteointegration; Passivation; Post and core; Powder metallurgy; Protein coating; Reaction with hydrogen; Reactions in chemical; Rutile; Saliva; Sandblasting; Scaffolds; Seeds-oriented materials; Shot-peening; Solid-state diffusion bonding; Superplastic forming; Surface/interface characterization; Ti nanotube coating; TiC coating; TiN coating; Titania coating; Titania powder coating; Toxicity; Transpassivation; Traumatized bone; UV treatment; Wear debris toxicity; Welding/soldering;