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Ti
40
Zr
10
Cu
36
Pd
14
bulk metallic glass as oral implant material
Amir Rezvan
,
Elham Sharifikolouei
, Viktor Soprunyuk
, Wilfried Schranz
, Juraj Todt
, Alice Lassnig
, Christoph Gammer
, Nikolaus August Sifferlinger
, Atacan Asci
, Ilya Okulov
, Sandra Schlögl
, Jozef Keckes
, Ziba Najmi
,
Andrea Cochis
, Alessandro Calogero Scalia
,
Lia Rimondini
, Baran Sarac
, Jürgen Eckert
Dipartimento di Scienze della Salute
Risultato della ricerca
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40
Zr
10
Cu
36
Pd
14
bulk metallic glass as oral implant material'. Insieme formano una fingerprint unica.
Ordina per
Peso
Alfabetico
Keyphrases
Biocompatibility
100%
Implant Materials
100%
Oral Implants
100%
Bulk Metallic Glass
100%
Order of Magnitude
66%
High Stability
33%
Medical Treatment
33%
High-resolution Transmission Electron Microscopy (HRTEM)
33%
Process Optimization
33%
Specific Properties
33%
High Strength
33%
Advanced Materials
33%
No Adverse Effect
33%
Surface Hydrophobicity
33%
Dynamic Mechanical Analysis
33%
Cell Attachment
33%
TiZr
33%
Oxide Layer
33%
Thin Surface Layer
33%
Processing Route
33%
Thermomechanical Stability
33%
Corrosion Current Density
33%
Saline Environment
33%
Compression Molding
33%
Bulk Metallic Glass Composite
33%
As-cast State
33%
TiCu
33%
Zr Oxide
33%
Nano Metal Oxides
33%
Low Corrosion
33%
Passivation Current Density
33%
Cu Oxide
33%
Ti-oxide
33%
Thermoplastic Net-shaping
33%
Cast Glass
33%
Strength Retention
33%
High Temperature Compression
33%
Human Gingival Fibroblast Cells
33%
Material Science
Implant Material
100%
Bulk Metallic Glass
100%
Surface (Surface Science)
80%
Density
40%
Oxide Compound
40%
Hydrophobicity
20%
Advanced Material
20%
Dynamic Mechanical Analysis
20%
Corrosion
20%
Thermoplastics
20%
Fibroblast
20%
Composite Material
20%
Compression Molding
20%
Engineering
Implant
100%
Bulk Metallic Glass
100%
Oxide Layer
25%
Nanoscale
25%
High Resolution
25%
Passivation
25%
Surface Layers
25%
Strength Retention
25%
Optimized Process
25%
Dynamic Mechanical Analysis
25%
Compression Molding
25%