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The objective of this investigation was to compare the effects of water storage on the aspect of hardness and diametral tensile strengths of four hybrid glass ionomer cements(two compomers and two resin-reinforced glass ionomers) with a resin composit...
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RISS 인기검색어
Hybrid Glass Ionomer cement의 비커스경도와 간접인장강도에 관한 연구 = A STUDY ON THE VICKER'S HARDNESS AND DIAMETRAL TENSILE STRENGTH OF HYBRID GLASS IONOMER
한글로보기https://www.riss.kr/link?id=A19555475
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
1997
-
작성언어
Korean
-
KDC
515.000
-
등재정보
KCI등재
-
자료형태
학술저널
- 발행기관 URL
-
수록면
505-518(14쪽)
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
The objective of this investigation was to compare the effects of water storage on the aspect of hardness and diametral tensile strengths of four hybrid glass ionomer cements(two compomers and two resin-reinforced glass ionomers) with a resin composite material. One composite resin(Degufill Ultra), two compomers(Dyract, Compoglass Cavifil), and two resin-reinforced glass ionomers(Fuji Duet, Vitremer) were used in this study.
Cylindrical specimens were prepared and stored at 36±1℃ in distilled water for 10 minutes after set, and then tested on an Instron testing machine(No.4467) at 1.0mm/min displacement rate. Vicker's hardness and diametral tensile strengths as time elapsed were measured after aging in water for 10 minutes, 1 hour, 3 hours, 1 day, 3 days, 5 days and 7 days at 36±1℃. During the test of diametral tensile strength, stress-strain curves were obtained, from which the compressive modulus were calculated and compared. The structure of four set glass ionomer cement mass was observed on SEM(Hitachi, S-2300) after being etched with 9.6% hydrofluoric acid for 1 minute.
The results were as follows;
1. The hardness of the experimental group(compomer and the resin reinforced glass ionomer cement) did not exceed the value of control gorup(Degufill Ultra).
2. Vicker's hardness of the Fuji Duet tended to increase succeedingly, Dyract was decreased after 3 hours in water, and Vitremer was the lowest.
3. The control group(Degufill Ultra) presented progressively on increased diametral tensile strength with time, Fuji Duet were decreased after 3 days, Compoglass Cavifil and Vitremer were decreased after 5 days in water storage.
4. Compressive modulus of the control group(Degufill Ultra) and Dyract were increased sharply timely, Fuji Duet and Vitremer were increased smoothly by lapse of time in water. Fuji Duet were stronger than Vitremer. On the other hand, Vitremer exhibited the lowest toughness.
5. The microstructure of compomer was similar with that of the composite resin(Degufill Ultra), and the fillers in resin-reinforced glass ionomer cements were noticed.
It can be concluded that mechanical properties of hybrid glass inomer cements is weaker than composite resin, and that the compomers or the resin-reinforced glass inomers can not substitute the composite resins.
A plenty of considerations should be done on the application of them to the area under the loading and high wear has a little adverse effect on the mechanical properties on the water storage for 7 days. The further research should be needed to confirm the advantage of the compomer.
Cylindrical specimens were prepared and stored at 36±1℃ in distilled water for 10 minutes after set, and then tested on an Instron testing machine(No.4467) at 1.0mm/min displacement rate. Vicker's hardness and diametral tensile strengths as time elapsed were measured after aging in water for 10 minutes, 1 hour, 3 hours, 1 day, 3 days, 5 days and 7 days at 36±1℃. During the test of diametral tensile strength, stress-strain curves were obtained, from which the compressive modulus were calculated and compared. The structure of four set glass ionomer cement mass was observed on SEM(Hitachi, S-2300) after being etched with 9.6% hydrofluoric acid for 1 minute.
The results were as follows;
1. The hardness of the experimental group(compomer and the resin reinforced glass ionomer cement) did not exceed the value of control gorup(Degufill Ultra).
2. Vicker's hardness of the Fuji Duet tended to increase succeedingly, Dyract was decreased after 3 hours in water, and Vitremer was the lowest.
3. The control group(Degufill Ultra) presented progressively on increased diametral tensile strength with time, Fuji Duet were decreased after 3 days, Compoglass Cavifil and Vitremer were decreased after 5 days in water storage.
4. Compressive modulus of the control group(Degufill Ultra) and Dyract were increased sharply timely, Fuji Duet and Vitremer were increased smoothly by lapse of time in water. Fuji Duet were stronger than Vitremer. On the other hand, Vitremer exhibited the lowest toughness.
5. The microstructure of compomer was similar with that of the composite resin(Degufill Ultra), and the fillers in resin-reinforced glass ionomer cements were noticed.
It can be concluded that mechanical properties of hybrid glass inomer cements is weaker than composite resin, and that the compomers or the resin-reinforced glass inomers can not substitute the composite resins.
A plenty of considerations should be done on the application of them to the area under the loading and high wear has a little adverse effect on the mechanical properties on the water storage for 7 days. The further research should be needed to confirm the advantage of the compomer.
The objective of this investigation was to compare the effects of water storage on the aspect of hardness and diametral tensile strengths of four hybrid glass ionomer cements(two compomers and two resin-reinforced glass ionomers) with a resin composite material. One composite resin(Degufill Ultra), two compomers(Dyract, Compoglass Cavifil), and two resin-reinforced glass ionomers(Fuji Duet, Vitremer) were used in this study.
Cylindrical specimens were prepared and stored at 36±1℃ in distilled water for 10 minutes after set, and then tested on an Instron testing machine(No.4467) at 1.0mm/min displacement rate. Vicker's hardness and diametral tensile strengths as time elapsed were measured after aging in water for 10 minutes, 1 hour, 3 hours, 1 day, 3 days, 5 days and 7 days at 36±1℃. During the test of diametral tensile strength, stress-strain curves were obtained, from which the compressive modulus were calculated and compared. The structure of four set glass ionomer cement mass was observed on SEM(Hitachi, S-2300) after being etched with 9.6% hydrofluoric acid for 1 minute.
The results were as follows;
1. The hardness of the experimental group(compomer and the resin reinforced glass ionomer cement) did not exceed the value of control gorup(Degufill Ultra).
2. Vicker's hardness of the Fuji Duet tended to increase succeedingly, Dyract was decreased after 3 hours in water, and Vitremer was the lowest.
3. The control group(Degufill Ultra) presented progressively on increased diametral tensile strength with time, Fuji Duet were decreased after 3 days, Compoglass Cavifil and Vitremer were decreased after 5 days in water storage.
4. Compressive modulus of the control group(Degufill Ultra) and Dyract were increased sharply timely, Fuji Duet and Vitremer were increased smoothly by lapse of time in water. Fuji Duet were stronger than Vitremer. On the other hand, Vitremer exhibited the lowest toughness.
5. The microstructure of compomer was similar with that of the composite resin(Degufill Ultra), and the fillers in resin-reinforced glass ionomer cements were noticed.
It can be concluded that mechanical properties of hybrid glass inomer cements is weaker than composite resin, and that the compomers or the resin-reinforced glass inomers can not substitute the composite resins.
A plenty of considerations should be done on the application of them to the area under the loading and high wear has a little adverse effect on the mechanical properties on the water storage for 7 days. The further research should be needed to confirm the advantage of the compomer.
목차 (Table of Contents)
- Ⅰ. 서론
- Ⅱ. 실험재료 및 방법
- Ⅲ. 실험성적
- Ⅳ. 총괄 및 고안
- Ⅴ. 결론
- Ⅰ. 서론
- Ⅱ. 실험재료 및 방법
- Ⅲ. 실험성적
- Ⅳ. 총괄 및 고안
- Ⅴ. 결론
- 참고문헌
- 영문초록
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