Structural Fatigue Life Prediction and Safety Performance Evaluation of Adjustable-Angle Dental Implants
2026-99-1654
To be published on 07/24/2026
- Content
- Adjustable-angle dental implants are favored by many patients due to the advantages they provide, such as high chewing force, aesthetics, comfort, and no harm to the adjacent teeth. This paper proposes a finite element modeling method for adjustable-angle dental implants by changing the material used for manufacturing the implants and predicting the life span of the dental implants with the help of Pro/E and ANSYS Workbench software, which provides biomechanical data reference for the selection of new implant parameters for industrial production and clinical use. The results show that the structural life of the implant is almost 764 years for pure titanium, 821 years for Ti6Al4v, and 1,274 years for βTi. From the analysis of the safety factor diagrams of the structures, it can be obtained that the smallest safety factor of the entire implant system occurs in the part where the abutment and the connection are in contact with each other during loading. In contrast, the smaller safety factors occurred in the abutment bumps, the ear stacks of the two grooves of the connector, and in the area of contact between the connector and the implant.
- Citation
- Gu, W., Cheng, S., and Liao, J., "Structural Fatigue Life Prediction and Safety Performance Evaluation of Adjustable-Angle Dental Implants," 2025 International Conference on Solid Mechanics and Materials (ICSMM 2025), Hengyang, China, August 15, 2025, .