Stress distribution in esthetic orthodontic brackets: An analysis using the finite element method.
- Author:
Won You LEE
1
;
Sam An JU
;
Young Cheol PARK
;
Myeong Kyun PARK
;
Hong Bum SOHN
;
Si Dong JEONG
Author Information
1. Department of orthodontics College or Dentistry Yonsei University, Korea.
- Publication Type:Original Article
- Keywords:
Finite element method;
Tipping;
Torquing force;
Stress distribution
- MeSH:
Finite Element Analysis;
Orthodontic Brackets*;
Steel
- From:Korean Journal of Orthodontics
1998;28(1):43-49
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
The aim of this study were to measure and compare the stress level on three type brackets and each other material (stainless steel, ceramic) with tipping and torquing forces by using the finite element analysis and to design bioniechanically favorable brackets. For this study, three kinds of brackets were selected(A:Transcend-RMO, B:Signature-Unitek, C:PAW plain archwire appliance-applied for a patent in Yonsei University). The slot size of bracket was 0.022inch and the size of archwire was 0.0175x0.025inch and taper shaped archwire was used in PAW. Loading force in tipping was 4.27N and torquing force was 32.858N applied by archwire torsion with 19.7degree and 113 degree in C type bracket. The conclusions were that (1) The finite element method proved to be a useful tool in the stress analysis of orthodontic bracket subjected to various forces. (2) With tipping, the stresses were concentrated at the gingival wall of the wire slot where it meets the mesial bracket surface and the incisal wall of the wire slot where it meets the distal bracket surface and with torquing, the stresses were concentrated at the junction of the gingival or incisal wall and base of the slot. (3) The maximum stress value was higher in torquing force than tipping force and therefore it is desirable to design on the basis of torquing force. (4) It was considered that the change in material might be affect on the diminish of stress value in the place of stess concentration. (5) The maximum stress value was highest on PAW bracket when the tipping and torquing force was applied and therefore it would be desirable to use mechanically favorable material on PAW bracket.
