A STUDY ON THE SHEAR BOND STRENGTH OF COMPOMER ACCORDING TO SURFACE TREATMENT

Compomer의 치면처리방법에 따른 전단 결합 강도에 관한 연구

  • Kim, Jin-Yong (Department of Conservative Dentistry, Graduate School, Dankook University) ;
  • Hong, Chan-Ui (Department of Conservative Dentistry, Graduate School, Dankook University)
  • 김진용 (단국대학교 치과대학 보존학교실) ;
  • 홍찬의 (단국대학교 치과대학 보존학교실)
  • Published : 1998.04.07

Abstract

To evalutate the change in shear bond strength according to dentin surface treatment, 4 materials were divided into control group(A) and experimental group(B). Group A was treated according to the instruction of manufacture. Group B was treated with 32% phosphoric acid. After dentin surface treatment, each material was bonded and stored in 100% humidity during 7 days, and then, the shear bond strength was evaluated. The results were as follows: 1. In the case of treatment according to the instruction of manufacture, the shear bond strength according to material showed Z-100 to be highest with 12.42 MPa, Compoglass had the lowest shear bond strength with 4.23 MPa and there was significant difference between Compoglass and Z-100, Dyract (p<0.01). 2. The group treated with 32% phosphoric acid showed lower shear bond strength than that of the group treated according to the instruction of manufacture but there was no statistical significance. 3. As a result of observation under SEM, the fracture pattern was a mixture of cohesive and adhesive failure in group 1, and there was more adhesive failure in group 2, and in group 3 and 4 there was cohesive failure of material or tooth structure. From the results above Dyract showed shear bond strength levels between resin and resin -modified glass ionomer but Compoglass showed much lower shear bond strength than that of resin-modified glass ionomer thus indicating that even though they are the same type of material they show evident differences in physical properties. And it is thought that the treatment of dentin surface with phosphoric acid did not increase the shear bond strength, unlike enamel.

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