Journal of Technologic Dentistry (대한치과기공학회지)
- Volume 29 Issue 1
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- Pages.93-101
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- 2007
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- 1229-3954(pISSN)
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- 2288-5218(eISSN)
Finite element analysis of stress distribution on supporting bone of posterior implant partial dentures by loading location
유한요소 분석을 이용한 하중 위치에 따른 구치부 임플란트 국소의치 지지골의 응력 분포 연구
- Son, Sung-Sik (Inje Dental Lab.) ;
- Kim, Young-Jick (Dept. of Dental Laboratory Science, College of Health Sciences, Catholic University of Pusan) ;
- Lee, Myung-Kon (Dept. of Dental Laboratory Science, College of Health Sciences, Catholic University of Pusan)
- Published : 2007.07.10
Abstract
The purpose of this study is to evaluate the effect of three different oblique mechanical loading to occlusal surfaces of posterior implant partial dentures on the stress distributions in surrounding bone, using 3-dimensional finite element method. A 3-dimensional finite element model of a posterior implant partial dentures composed of three unit implants, simplified 3 gold alloy crown and supporting bone was developed according to the design of AVANA self tapping implant for this study. Three kinds of surface distributed oblique loads(300 N) are applied to following occlusal surfaces in the three crowns; 1) All occlusal surfaces in the three crown(load of 300 N was shared to three crown), 2) Occlusal surface of centered crown (load of 300 N was applied to a centered crown), 3) Occlusal surface of proximal crown(load of 300 N was applied to a distal proximal crown). In the results, 141 MPa of maximum von Mises stress was calculated at third loading condition and 98 MPa of minimum von Mises stress was calculated at first loading condition. From the results, location and type of occlusive loading conditions are important for the safety of supporting bone.