Fracture resistance of bone samples filled with fibre-reinforced composite posts: an ex vivo model.
Cauwels, R G E C
Fracture resistance of bone samples filled with fibre-reinforced composite posts: an ex vivo model. [electronic resource] - International endodontic journal May 2013 - 434-41 p. digital
Publication Type: Comparative Study; Journal Article
1365-2591
10.1111/iej.12008 doi
Adhesiveness
Animals
Bisphenol A-Glycidyl Methacrylate--chemistry
Cattle
Composite Resins--chemistry
Dental Bonding
Dental Materials--chemistry
Dental Prosthesis Design
Epoxy Resins--chemistry
Femur--physiopathology
Fractures, Bone--physiopathology
Glass--chemistry
Humidity
Light-Curing of Dental Adhesives
Materials Testing
Polymers--chemistry
Polymethyl Methacrylate--chemistry
Post and Core Technique--instrumentation
Random Allocation
Resin Cements--chemistry
Self-Curing of Dental Resins
Stress, Mechanical
Temperature
Time Factors
Fracture resistance of bone samples filled with fibre-reinforced composite posts: an ex vivo model. [electronic resource] - International endodontic journal May 2013 - 434-41 p. digital
Publication Type: Comparative Study; Journal Article
1365-2591
10.1111/iej.12008 doi
Adhesiveness
Animals
Bisphenol A-Glycidyl Methacrylate--chemistry
Cattle
Composite Resins--chemistry
Dental Bonding
Dental Materials--chemistry
Dental Prosthesis Design
Epoxy Resins--chemistry
Femur--physiopathology
Fractures, Bone--physiopathology
Glass--chemistry
Humidity
Light-Curing of Dental Adhesives
Materials Testing
Polymers--chemistry
Polymethyl Methacrylate--chemistry
Post and Core Technique--instrumentation
Random Allocation
Resin Cements--chemistry
Self-Curing of Dental Resins
Stress, Mechanical
Temperature
Time Factors