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Finite element analysis of stress distribution on supporting bone of cement retained implant by loading location
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±è°©Áø ( Kim Kap-Jin ) - ºÎ»ê°¡Å縯´ëÇб³ Ä¡±â°øÇаú
KMID : 0362120160380030143
Abstract
Purpose: The purpose of this study is to evaluate the effect of two different oblique mechanical loading to occlusal surfaces of cement retained implant on the stress distributions in surrounding bone, using 3- dimensional finite element method.
Methods: A 3-dimensional finite element model of a cement retained implant composed of three unit implants, simplified ceramic crown and supporting bone was developed according to the design of ement retained implant for this study. two kinds of surface distributed oblique loads(100 N) are applied to following occlusal surfaces in the single crowns; 1) oblique load on 2 occlusal points(50N for each buccal cusp, 2 buccal cusps exist), 2) oblique load on 4 occlusal points(25N for each buccal and lingual cusp, 2 buccal and 2 lingual cusps exist)
Results: The results of the comparison of the stress distributions on surrounding bone are as follows. In the condition of oblique load on 2 occlusal points, VMS was 741.3 Mpa in the M1(¨ª4.0¡¿13§®) model and 251.2 Mpa in the M2(¨ª5.0¡¿13§®) model. It means the stress on the supporting bone is decreased. The results of oblique load on 4 occlusal points are similar to this one.
Conclusion: Increasing the diameter of the implant fixture is helpful to distribute the stress on the supporting bone. Also, to obtain the structural stability of the supporting bone, it is effective to distribute the load evenly on the occlusal surface of crown in producing single crown implant.
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implant; finite element method; occlusal loading position; supporting bone
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