Conclusion : Three-dimensional finite element analysis of extra short implants focusing on implant designs and materials
Conclusion : 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
Within the limitations of this study, the following conclusions were drawn.
The stress distribution in the cortical bone and implant body was smaller in the TL implant than in the BL implant.
The TiZr alloy had a lower elastic modulus than cpTi, and the stress distribution generated in the cortical bone and implant body was also lower.
The stress distribution generated in the cortical bone and the implant body increased as the length of the implant body decreased, but the design of the implant body had a greater influence than the implant body length.
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