Table 1 Mechanical properties of each model component : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
Table 1 Mechanical properties of each model component : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
author: Haruka Araki, Tamaki Nakano, Shinji Ono, Hirofumi Yatani | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
| Young’s modulus (GPa) | Poisson’s ratio | Reference | |
|---|---|---|---|
| Abutment screw (Ti-6Al-4V) | 110 | 0.33 | [19] |
| Superstructure (gold alloy) | 96.6 | 0.35 | [20] |
| Cortical bone | 13 | 0.3 | [21] |
| Cancellous bone | 1.37 | 0.3 | [21] |
| Implant body (cpTi) | 110 | 0.34 | |
| Implant body (TiZr) | 97.3 | 0.36 |
Table 1 Mechanical properties of each model component
Serial posts:
- Abstract : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Summary : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Materials and methods : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [1]
- Materials and methods : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [2]
- Results : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Discussion : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [1]
- Discussion : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [2]
- Discussion : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [3]
- Conclusion : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Availability of data and materials : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- References : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [1]
- References : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [2]
- References : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [3]
- References : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [4]
- References : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials [5]
- Acknowledgements : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Funding : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Author information : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Ethics declarations : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Additional information : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Rights and permissions : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- About this article : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Table 1 Mechanical properties of each model component : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
- Fig. 1. Three-dimensional CAD model. (upper: a abutment screw, b superstructure, c implant body; Lower: bone model) : Three-dimensional finite element analysis of extra short implant
- Fig. 2. Models of different implant body lengths : Three-dimensional finite element analysis of extra short implant
- Fig. 3. Assembly of implant and bone models. A static load of 100 N was applied obliquely from the buccal side to the occlusal plane of the superstructure at 30 to the long axis of the implant : Three-dimensional finite element analysis of extra short implant
- Fig. 4. Distribution of the maximum principle stress in the surrounding bone (right: buccal side, left: lingual side) : Three-dimensional finite element analysis of extra short implant
- Fig. 5. Distribution of the maximum principle stress in the surrounding bone (occlusal view) : Three-dimensional finite element analysis of extra short implant
- Fig. 6. Largest maximum principle stress value in cortical bone (MPa) : Three-dimensional finite element analysis of extra short implant
- Fig. 7. Von Mises stress distribution in implant bodies. (right: buccal side, left: lingual side) : Three-dimensional finite element analysis of extra short implant
- Fig. 8. Maximum von Mises stress value in implant bodies (MPa) : Three-dimensional finite element analysis of extra short implant