1.Drying adhesives.
Restorative Dentistry & Endodontics 2014;39(2):148-148
No abstract available.
Adhesives*
3.Treatment and timing of operation in adhesive small bowel obstruction with the history of previous abdominal operation.
Kyung Wha SHIN ; Kyung Suk CHUNG ; Ki Chu LEE
Journal of the Korean Surgical Society 1991;41(6):776-786
No abstract available.
Adhesives*
4.Phosphoric acid etching for multi-mode universal adhesive.
Restorative Dentistry & Endodontics 2016;41(2):157-158
No abstract available.
Adhesives*
5.The comparison on micro-tensile bond strengths of variable adhesive systems to Class V cavity.
Jung Mi KWON ; Kyung Kyu CHOI ; Sang Jin PARK
Journal of Korean Academy of Conservative Dentistry 2004;29(1):1-12
No abstract available.
Adhesives*
6.Priming time and etching effect on shear bond strength of self-etching adhesive.
Journal of Korean Academy of Conservative Dentistry 2004;29(2):185-190
No abstract available.
Adhesives*
7.Priming time and etching effect on shear bond strength of self-etching adhesive.
Journal of Korean Academy of Conservative Dentistry 2004;29(2):185-190
No abstract available.
Adhesives*
8.Postoperative adhesive ileus.
Seong Heum PARK ; Hong Young MOON
Journal of the Korean Surgical Society 1993;44(1):119-127
No abstract available.
Adhesives*
;
Ileus*
9.The nanoleakage patterns of different dentin adhesive systems.
Tae Yeon LEE ; Byeong Hoon CHO ; Ho Hyun SON
Journal of Korean Academy of Conservative Dentistry 2003;28(2):169-177
No abstract available.
Adhesives*
;
Dentin*
10.Effect of Cobalt-Chromium Alloy Surface Treatment When Bonding With 4-Meta/mma-Tbb Resin.
Jae Sik JIN ; Kyo Han KIM ; Cheong Hee LEE ; Kwang Hun JO
The Journal of Korean Academy of Prosthodontics 2000;38(4):510-525
The effects of pretreatment of Co-Cr alloy, including two adhesive primers that contain either MDP or MAC-10, and silicoating on the bond. The results obtained as follows : Strength of 4-META/MMA-TBB resin were investigated using FT-IR SEM, and EDAX. in the SEM observation of surface morphologies, the sandblasted specimen exibited a very rough surface, whereas the surfaces of the two groups primed with either MDR or MAC-10 were covered with a layer of primer, and the surface morphology of the silicoated specimen remained almost the same after sandblasting. Before the thermocycling tests, the group treated with MDP demonstrated the highest mean tensile bond strength and the sandblasted group showed the lowest bond strength. After 20,000 themocyling, the mean tensile bond strength of the sandblasted group exhibited a 50% reduction in bond strength, while the other showed a 20~30% reduction. Observation of the metal-resin interface revealed that in all groups the resin permeated the rough surface formed by sandblasting thereby producing a mechnical bond between the metal and the resin, It was also found that thermocycling resulted in a gap formation at the metal-resin interface of the specimens, and the sandblasted group exhibited a larger gap width than the other groups. in fracture mode, all specimens indicated a cohesive fracture within the resin before thermocycling. However, thermocyling produced adhesive failure at the edge of the resin-metal interface in most specimens, The sandblasted group, which exhibited the lowest bond strength after thermocycling, also demonstrated the largest area of adhexive failure.
Adhesives
;
Alloys*
Result Analysis
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