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Keyword [Implants]
Result: 1 - 20 | Page: 1 of 6
1. Preparation And Properties Of Titanium Implants With Three-Dimensional Graded Pore Structure
2. Preparation Of Novel Bulk Carbon Nanotube Dental Materials For Implants
3. Preparation And Performance Of Crosslinked UHMWPE With Oxidation Stability For Total Joint Implants
4. Preparation, Characterization And Evaluation Of Drug-Loadable Biopolymer/Calcium Phosphate Composite Coatings With Porous Structure
5. In Situ Construction Of Nanostructure On Biomedical Metallic Titanium Implants For Surface Modification And The Research On Its Biological Property
6. Formation And Biocompatibility Of Oxide Film On Machined Titanium Alloy Surface Under Oxygen-enriched Environment
7. Study On Preparation Of Implantable Delayed Release ADS-Ⅰ Discs Effecting On The Brain Which Wsed In The Treatment Of Malignant Glioma
8. Study On The Preparation Process Of Micro-arc Oxidation Ceramic Film On Titanium Alloy Implants
9. Modeling Of Porous Structure Of Implants And Direct Manufacturing By Selective Laser Melting
10. Investigation Of Carboxybetaine Polymers In Drug Carriers And Medical Implantable Materials
11. The Fabrication Of Micro/Nano-Textured Surface On Titanium And The Study Of Its Biocompatibility
12. Stress Analysis Of Zirconia Abutments And Dental Implants Using Finite Element Methord
13. Study On Materials Design And Biological Functions Of Novel Biodegradable Magnesium Alloys For Orthopaedic Implants Applications
14. Zwitterionic Modified Starch Derivatives,Preparation And Application In Drug Delivery And Implants
15. Surface Modification Of The Dental Zirconia Implants
16. Titanium Materials With PDA Coating For Biology Application
17. Biological Performance And Corrosion Behavior Of In-situ Fabrication Zn-deped ZrO2/TiO2 Coatings On Ti6Al4V Implants
18. Preparation And Properties Of Biological Functional Magnesium Coating On Surface Of Biomedical Materials For Orthopaedic Implants
19. Study On Properties Of Porous Implants Based On Selective Laser Melting Technique
20. Study On Multi-point Injection Molding For Personalized Skull Implants
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