Finite element stress analysis of all-ceramic crown of the upper central incisor in differential thickness

doi:10.3969/j.issn.1000-1182.2012.04.006

West China Journal of Stomatology ›› 2012, Vol. 30 ›› Issue (4): 356-359.doi: 10.3969/j.issn.1000-1182.2012.04.006

Previous Articles Next Articles

Finite element stress analysis of all-ceramic crown of the upper central incisor in differential thickness

Hu Jian1，Zhang Feimin1, Dai Ning2, Li Shuanggao2, Gu Weiping1, Ma Junchi1.

1. Institute of Stomatology, Nanjing Medical University, Nanjing 210029, China; 2. College of Mechanical and Electrical Engineering, Nanjing University of
Aeronautics and Astronautics, Nanjing 210016, China

Received:2011-07-14 Revised:2011-11-23 Online:2012-08-01 Published:2012-08-01

Abstract

Abstract:

Objective To investigate the stress distributions under load in an all-ceramic crown of the upper central incisor in differential thickness. Methods The 3-dimensional finite element model of all-ceramic crown of the upper central incisor in differential thickness was applied with differential loads（100, 150, 200 N）. The stress values and distributions of all-ceramic crown were calculated and expressed. Results The tendency of stress distributions in all-ceramic crown of differential thickness and loads was similar. The maximal stress intensity value was located in the loading site and the cervical region. As the thickness of all-ceramic crown increased, the stress concentration reduced. When the load increased, the stress values increased, especially in the loading site and the cervical region.
Conclusion The increasing of the thickness of all-ceramic crown will decrease stress concentration. Because stress concentration is mainly in cervical region and loading site, these regions should be cared in fabrication of all-ceramic crown.

Key words: all-ceramic crown, 3-dimensional finite element model, stress distribution, upper central incisor

Hu Jian1，Zhang Feimin1, Dai Ning2, Li Shuanggao2, Gu Weiping1, Ma Junchi1.. Finite element stress analysis of all-ceramic crown of the upper central incisor in differential thickness[J]. West China Journal of Stomatology, 2012, 30(4): 356-359.

[1]	Li Sinuo, Zhang Luyao, Liang Shanshan, Liu Yuqiang, Xing Wenzhong. Effect of ceramic type and thickness on the masking ability of chairside machinable all-ceramic crowns [J]. West China Journal of Stomatology, 2024, 42(1): 56-61.
[2]	Xing Weibin, Zheng Shuxian, Yang Shiyi.. Finite elemental analysis of the influence of mandibular plane angle on the stress distribution of implant tooth [J]. West China Journal of Stomatology, 2016, 34(5): 502-505.
[3]	Zhan Lilin, Zeng Liwei, Chen Ping, Liao Lan, Li Shiyue, Liu Renying. Study on the effect of different impression methods on the marginal fit of all-ceramic crowns [J]. West China Journal of Stomatology, 2015, 33(4): 401-404.
[4]	Hui Jifang1, Zhang Han2, Qu Xiaodong3, Yan Weijun1, Shao Ping1. Finite element analysis of periodontal tissue stress distribution of labial inverted impacted maxillary central incisor [J]. West China Journal of Stomatology, 2015, 33(1): 67-70.
[5]	Su Yingmin, Song Guangbao, He Lingfeng, Zhong Zhenwei.. Photoelastic analysis of the biomechanical behavior of the bone interface of Tension More implants [J]. West China Journal of Stomatology, 2014, 32(5): 450-454.
[6]	Zhang Xing, Chen Songling, Zhang Yun, Qi Liuying.. Three-dimensional finite element analysis of the effect of orbital implant lengths on stress distributions in peri-implant surfaces [J]. West China Journal of Stomatology, 2014, 32(5): 484-487.
[7]	Liu Chang, Zhu Xianchun, Zhang Xing, Guo Jingfang, Tang Guanqun.. Three-dimensional finite-element analysis of maxillary protraction based on labiolingual appliance [J]. West China Journal of Stomatology, 2013, 31(5): 457-462.
[8]	Zhong Qian, Zhou Guoxing, Guang Hanbing, Dai Wenyong, Qiu Jing, Wang Guoping, Zhu Zhijun, Tang Chunbo. . Clinical evaluation on aesthetic effect of custom pressable metal ceramic abutment for dental implant restoration in anterior zone [J]. West China Journal of Stomatology, 2013, 31(4): 429-431,433.
[9]	SHAN Li-hua1, DONG Fu-sheng2, GONG Wei-wei3, ZHANG Xiong3. The effect of mini-implant lengths on stress distributions in peri-implant surface [J]. West China Journal of Stomatology, 2011, 29(01): 27-30.
[10]	TAN Fa-bing1, WANG Lu1, FU Gang1, WU Shu-hong2, JIN Ping2. An experimental study on the effect of different optical impression methods on marginal and internal fit of all-ceramic crowns [J]. West China Journal of Stomatology, 2010, 28(01): 29-33.
[11]	HU Min1, LIU Lei2, ZHANG Li- wen1, WU Hong2, YAN Wei- qun3, KAZUTO Terada. Photoelastic analysis of movement tendency of lower teeth using multiloop edgewise ar chwir e with vertical elastics in anterior teeth area [J]. West China Journal of Stomatology, 2007, 25(05): 493-496.
[12]	WANGXiao-jie, LUO Jiao-ming, CHENJi-yong, ZHANG Xing-dong. The Study on Three-dimension Finite Element Analysis of the Stress Distribution in the Mandible Bone around Dental Implants [J]. West China Journal of Stomatology, 2005, 23(02): 167-169.
[13]	LIUDong-xu1, WANG Chun-ling1, FUChuan-yun1, ZHANGXiao-yan1, ZHENGXiao-zhong2. FEM Study on Displacement, Position of Rotation Center and Stress Distribution of PDL under Various Loading Force Systems [J]. West China Journal of Stomatology, 2004, 22(03): 192-195.
[14]	LI Zhihua*,CHEN Yangxi,LIUJian,et al.. Analysis of Stress in the Periodontal Tissue of the Maxillary First Molar on Distal Movement by Finite Element Method [J]. West China Journal of Stomatology, 2003, 21(04): 267-269.

Finite element stress analysis of all-ceramic crown of the upper central incisor in differential thickness

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 14

Recommended Articles

Metrics

Comments