- 作者:Maryam Hajizadeha ; maryam.hajizadeh44@gmail.com" class="auth_mail" title="E-mail the corresponding author ; Farzan Ghalichia ; Behnam Mirzakouchakib
- 关键词:Finite element analysis ; Bracket&ndash ; adhesive-tooth system ; Bracket base geometry ; Bond strength
- 刊名:Orthodontic Waves
- 出版年:2016
- 出版时间:September 2016
- 年:2016
- 卷:75
- 期:3
- 页码:64-75
- 全文大小:5103 K
Materials and methods
Rectangular bracket was primarily bonded on maxilla central tooth to measure stress distribution of bracket–adhesive-tooth system with applying shear and tensile forces and torsional moment. Trapezoidal, hexagonal and elliptical brackets were then modeled for this planar enamel surface tooth. All of these brackets were bonded to tooth separately and similar loading conditions were applied on the bracket of each system. Stress distributions of bracket–adhesive-tooth systems were calculated and compared to each other.
Results
It was observed that for hexagonal bracket–adhesive-tooth system, adhesive layer and enamel, and for elliptical bracket the bracket and enamel layer were of more symmetric and appropriate pattern of stress distribution and lower maximum stress. Therefore, these shapes of bracket are more proper than the other two shapes for a planar enamel surface tooth.
Conclusion
Bracket base geometry was confirmed to crucially affect the bond strength of bracket–adhesive-tooth system through finite element analysis approach.