Surface Treatment Agent for Dental Metals using a Thiirane Monomer and a Phosphoric Acid Monomer
スポンサーリンク
概要
- 論文の詳細を見る
To develop a new surface treatment agent which improves the bond strength of adhesive resin to both non-precious and precious metals, experimental treatment agents containing both an adhesive bonding promoter for precious metals and one for non-precious metals were prepared by dissolving epithioalkyl methacrylate (EP3MA or EP8MA) and 10-methacryloyloxydecyl dihydrogen phosphate (MDP) in acetone. The surfaces of dental metals were treated by the treatment agents and metal specimens were butt-jointed together with MMA-PMMA resins. After 2,000 thermal cyclings in water at temperatures of 4 and 60℃, tensile bond strengths were measured. The effectiveness of surface treatments was evaluated by tensile bond strengths and microscopic failure mode analysis after the tensile test. The combined treatment of EP3MA-MDP or EP8MA-MDP was used effectively for non-precious metals as well as precious metals, and was shown to be extremely effective compared with the single treatment of EP3MA, EP8MA, or MDP.
- 日本歯科理工学会の論文
著者
-
Kadoma Yoshinori
Department Of Applied Functional Molecules Division Of Biofunctional Molecules Institute Of Biomater
-
Kadoma Yoshinori
Department Of Applied Functional Molecules Division Of Biofunctional Molecules Institute Of Biomater
関連論文
- Kinetic polymerization behavior of fluorinated monomers for dental use
- Water Durability of Resin Bond to Pure Gold Treated with Various Adhesion Promoting Thiirane Monomers
- Effect of novel dithiooctanoate monomers, in comparison with various sulfur-containing adhesive monomers, on adhesion to precious metals and alloys
- Water Durability of Resin Bond to Precious Metal Alloys Using Adhesive Resins Containing Adhesion Promoting Monomers
- Precious Metal Primers Containing Both an Adhesion Promoting Monomer for Precious Metals and One for Base Metals
- Adhesive Properties and Kinetic Polymerization Behavior of Resins Containing Adhesion Promoting Monomers for Precious Metals
- Design of a metal primer containing a dithiooctanoate monomer and a phosphonic acid monomer for bonding of prosthetic light-curing resin composite to gold, dental precious and non-precious metal alloys
- Acid and Base-Catalyzed Hydrolysis of Bisphenol A-Related Compounds
- Surface Treatment Agent for Dental Metals using a Thiirane Monomer and a Phosphoric Acid Monomer
- Effect of rinse with calcium-rich mineral water on plaque fluid
- Adhesive behavior of newly prepared self-etching sealant
- Correlation in Inorganic Ion Concentration between Saliva and Plaque Fluid
- Use of Fluoride-containing Sealant on Proximal Surfaces
- Chemical Structures of Adhesion Promoting Monomers for Precious Metals and Their Bond Strengths to Dental Metals
- Bonding durability against water of a fluorine-containing resin for precious metal alloys
- Design of a new, multi-purpose, light-curing adhesive comprising a silane coupling agent, acidic adhesive monomers and dithiooctanoate monomers for bonding to varied metal and dental ceramic materials
- Effect of the combination of dithiooctanoate monomers and acidic adhesive monomers on adhesion to precious metals, precious metal alloys and non-precious metal alloys
- Development of a new single-bottle multi-purpose primer for bonding to dental porcelain, alumina, zirconia, and dental gold alloy
- Construction of a dental caries prediction model by data mining
- Effects of a newly designed HEMA-free, multi-purpose, single-bottle, self-etching adhesive on bonding to dental hard tissues, zirconia-based ceramics, and gold alloy
- Synthesis of novel acryloyloxyalkyl and methacryloyloxyalkyl 6,8-dithiooctanoates and evaluation of their bonding performances to precious metals and alloys
- A review of the developments of self-etching primers and adhesives-Effects of acidic adhesive monomers and polymerization initiators on bonding to ground, smear layer-covered teeth
- A review of the developments of multi-purpose primers and adhesives comprising novel dithiooctanoate monomers and phosphonic acid monomers