Stress distribution in a zirconia one-piece dental implant

A. Correia; J. C. Reis Campos; P. Couto Viana; Z. Kovacs; N. V. Ramos; M. Vaz

Stress distribution in a zirconia one-piece dental implant

A. Correia
, J. C. Reis Campos
, P. Couto Viana
, Z. Kovacs
, N. V. Ramos
, M. Vaz

Resultado de pesquisa › revisão de pares

Resumo

The aim of this research was to perform a numerical stress analysis in a zirconia dental implant virtually inserted in a maxilla bone. A zirconia one-piece dental implant was scanned with a CAD-CAM dental system and a 3D geometry.stl file was exported and processed into a numerical model to perform a simulation with finite elements.A qualitative analysis was performed using unitary load in a vertical and oblique direction. Results of the stress analysis with FEM showed that the highest stresses are located in the abutment of the implant when a vertical load is applied and when an oblique load is used there is also a stress concentration on the implant but this time in the surface opposed to the load. Therefore, it seems that there is not an increased risk of implant failure, when compared to traditional titanium implants.

Idioma original	English
Título da publicação do anfitrião	Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012
Páginas	173-175
Número de páginas	3
Estado da publicação	Publicado - 2014
Publicado externamente	Sim
Evento	2nd International Conference on Biodental Engineering, BIODENTAL 2012 - Porto Duração: 7 dez. 2012 → 8 dez. 2012

Série de publicação

Nome	Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012

Conferência

Conferência	2nd International Conference on Biodental Engineering, BIODENTAL 2012
País/Território	Portugal
Cidade	Porto
Período	7/12/12 → 8/12/12

Outros arquivos e links

Link to publication in Scopus

Citação

Correia, A., Campos, J. C. R., Viana, P. C., Kovacs, Z., Ramos, N. V., & Vaz, M. (2014). Stress distribution in a zirconia one-piece dental implant. Em Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012 (pp. 173-175). (Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012).

Correia, A. ; Campos, J. C. Reis ; Viana, P. Couto et al. / Stress distribution in a zirconia one-piece dental implant. Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012. 2014. pp. 173-175 (Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012).

@inproceedings{58cbb4e5bd814f4aafe6d88deba25a85,

title = "Stress distribution in a zirconia one-piece dental implant",

abstract = "The aim of this research was to perform a numerical stress analysis in a zirconia dental implant virtually inserted in a maxilla bone. A zirconia one-piece dental implant was scanned with a CAD-CAM dental system and a 3D geometry.stl file was exported and processed into a numerical model to perform a simulation with finite elements.A qualitative analysis was performed using unitary load in a vertical and oblique direction. Results of the stress analysis with FEM showed that the highest stresses are located in the abutment of the implant when a vertical load is applied and when an oblique load is used there is also a stress concentration on the implant but this time in the surface opposed to the load. Therefore, it seems that there is not an increased risk of implant failure, when compared to traditional titanium implants.",

author = "A. Correia and Campos, \{J. C. Reis\} and Viana, \{P. Couto\} and Z. Kovacs and Ramos, \{N. V.\} and M. Vaz",

year = "2014",

language = "English",

isbn = "9781138001312",

series = "Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012",

pages = "173--175",

booktitle = "Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012",

}

Correia, A, Campos, JCR, Viana, PC, Kovacs, Z, Ramos, NV & Vaz, M 2014, Stress distribution in a zirconia one-piece dental implant. em Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012. Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012, pp. 173-175, 2nd International Conference on Biodental Engineering, BIODENTAL 2012, Porto, Portugal, 7/12/12.

Stress distribution in a zirconia one-piece dental implant. / Correia, A.; Campos, J. C. Reis; Viana, P. Couto et al.
Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012. 2014. p. 173-175 (Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012).

Resultado de pesquisa › revisão de pares

TY - GEN

T1 - Stress distribution in a zirconia one-piece dental implant

AU - Correia, A.

AU - Campos, J. C. Reis

AU - Viana, P. Couto

AU - Kovacs, Z.

AU - Ramos, N. V.

AU - Vaz, M.

PY - 2014

Y1 - 2014

N2 - The aim of this research was to perform a numerical stress analysis in a zirconia dental implant virtually inserted in a maxilla bone. A zirconia one-piece dental implant was scanned with a CAD-CAM dental system and a 3D geometry.stl file was exported and processed into a numerical model to perform a simulation with finite elements.A qualitative analysis was performed using unitary load in a vertical and oblique direction. Results of the stress analysis with FEM showed that the highest stresses are located in the abutment of the implant when a vertical load is applied and when an oblique load is used there is also a stress concentration on the implant but this time in the surface opposed to the load. Therefore, it seems that there is not an increased risk of implant failure, when compared to traditional titanium implants.

AB - The aim of this research was to perform a numerical stress analysis in a zirconia dental implant virtually inserted in a maxilla bone. A zirconia one-piece dental implant was scanned with a CAD-CAM dental system and a 3D geometry.stl file was exported and processed into a numerical model to perform a simulation with finite elements.A qualitative analysis was performed using unitary load in a vertical and oblique direction. Results of the stress analysis with FEM showed that the highest stresses are located in the abutment of the implant when a vertical load is applied and when an oblique load is used there is also a stress concentration on the implant but this time in the surface opposed to the load. Therefore, it seems that there is not an increased risk of implant failure, when compared to traditional titanium implants.

UR - https://www.scopus.com/pages/publications/84896841868

M3 - Conference contribution

AN - SCOPUS:84896841868

SN - 9781138001312

T3 - Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012

SP - 173

EP - 175

BT - Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012

T2 - 2nd International Conference on Biodental Engineering, BIODENTAL 2012

Y2 - 7 December 2012 through 8 December 2012

ER -

Correia A, Campos JCR, Viana PC, Kovacs Z, Ramos NV, Vaz M. Stress distribution in a zirconia one-piece dental implant. Em Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012. 2014. p. 173-175. (Biodental Engineering II - Proceedings of the 2nd International Conference on Biodental Engineering, BIODENTAL 2012).

Stress distribution in a zirconia one-piece dental implant

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