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논문검색

Original Article

3D 프린터로 출력된 치과용 레진의 자동바렐연마공정에 따른 표면 거칠기 및 연마도 관찰

원문정보

Observation of surface roughness and grinding angle by automatic barrel finishing process of dental 3D printed resin

박유진, 정안나

피인용수 : 0(자료제공 : 네이버학술정보)

초록

영어

Purpose: This study aimed to confirm the applicability of gloss polishing using automatic barrel finishing with respect to three-dimensional (3D)-printed resin specimens. The surface roughness and grinding angle of the 3D-printed resin specimens were observed with respect to gloss polishing time using automatic dental barrel finishing. Methods: Herein, experiments were conducted on four types of 3D-printed resin specimens. The specimens, with a thickness of 100 μm each, were printed using a 3D printer. Subsequently, light polymerization was performed on these specimens for 15 min. Post this surface treatment, the specimens underwent grinding for 25 min. This process was followed by gloss polishing at 5-min intervals for up to 25 min using automatic dental barrel finishing. The specimens were photographed using a 3D optical microscope, and their surface roughness and grinding angle were measured. Results: The Ra (centerline average roughness) values of all the specimens, except for crown & bridge 10 group and those in the control group that were not polished using automatic barrel finishing, were <0.2 μm. However, polishing time needs to be controlled to realize the desired surface roughness and grinding amount considering the hardness of the resin used. Conclusion: Gloss polishing of 3D-printed resin can be realized using automatic dental barrel finishing. However, polishing time needs to be controlled to realize the desired surface roughness and grinding amount considering the hardness of the resin used.

목차

Abstract
INTRODUCTION
MATERIALS AND METHODS
1. 실험 재료
2. 시편 제작
3. 표면형상 관찰 및 표면거칠기 측정 실험
4. 연마각 관찰 실험
5. 통계 분석
RESULTS
1. 표면형상 관찰 및 표면거칠기 측정 실험
2. 연마도 관찰 실험
3. 통계 분석
DISCUSSION
CONCLUSIONS
FUNDING
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
ORCID
REFERENCES

저자정보

  • 박유진 Yu-Jin Park. 부산가톨릭대학교 치기공학과
  • 정안나 An-Na Jung. 부산가톨릭대학교 치기공학과

참고문헌

자료제공 : 네이버학술정보

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