국문목차
표제지=0,1,4
목차=i,5,2
List of Figures=iii,7,1
List of Tables=iv,8,1
ABSTRACT=v,9,1
1. 서론=1,10,2
2. 이론적 배경=3,12,1
2.1. 치과용 도재의 역사=3,12,2
2.2. 도재관용 금속(Porcelain metal)의 특성=5,14,4
2.3. 도재관용 도재(Porcelain)의 특성=9,18,5
2.4. 도재-금속의 결합=14,23,2
3. 실험방법=16,25,1
3.1. 시편준비=16,25,2
3.2. 표면처리 방법=18,27,1
3.3. 금속-도재의 축성=19,28,2
4. 결과 및 고찰=21,30,1
4.1. 표면처리 방법에 따른 표면의 현미경 조직=22,31,1
4.2. Degassing 처리를 하지 않은 Porcelain Metal 의 결합강도=23,32,1
4.3. 소성온도에 따른 결합강도=24,33,1
4.4. 표면처리 방법에 따른 결합강도=25,34,2
4.5. Degassing 처리에 따른 결합강도=27,36,1
4.6. 종류에 따른 결합강도=28,37,2
4.7. SEM 분석=30,39,6
5. 결론=36,45,1
References=37,46,2
감사의 글=39,48,1
Fig.1. (a) The structure and (b) it's real application of metal-ceramic porcelain. (c) The structure and (d) it's real application of all ceramic porcelain=4,13,1
Fig.2. Surface treatment materials of porcelain metals. (a) Carbide-bar, (b)vera-disk, and (c) alumina sand blast=18,27,1
Fig.3. Flow diagram of the ceramic building procedure=19,28,1
Fig.4. Schematic of TRS specimen(units:㎜)=20,29,1
Fig.5. Schematic of tensional specimen(E8M sub-size)(units:㎜)=20,29,1
Fig.6. X-ray diffraction pattern of Opaque material=21,30,1
Fig.7. Photographs of metal surface by grinding treatment using (a)vera-disk, (b)carbide-bar, (c) vera-disk with aluminum oxide sand, and (d) carbide-bar with aluminum oxide sand=22,31,1
Fig.8. Strength of specimens without degassing=23,32,1
Fig.9. Strength of specimens by sintering temperatures=24,33,1
Fig.10. Strength of specimens by surface treatment methods=25,34,1
Fig.11. Strength of specimens of sand treatment and degassing treatment=27,36,1
Fig.12. Strength of specimens of (a) v-d types and (b) c-b types=28,37,1
Fig.13. SEM photograph of c-b treated specimens by firing temperature. (a) 920℃ (b) 950℃, and 980℃=32,41,1
Fig.14. SEM photographs after surface treatment using (a) vera disk and (b) carbide bar=33,42,1
Fig.15. SEM photographs of degassing treated specimens after grinding by (a) v-d-d and (b) v-d=34,43,1
Fig.16. SEM photographs of specimens after surface treatment using (a) vera disk and (b) carbide bar=35,44,1
Table1. Mechanical properties of porcelain metals=5,14,1
Table2. Physical properties of porcelain metals=6,15,1
Table3. Variety of porcelain metals=9,18,1
Table4. Composition of Rexillium III alloys=16,25,1
Table5. The concentration of liquid by the alloy and rings=16,25,1
Table6. Expansion of embedded materials by working conditions=17,26,1