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Materiale Plastice
Cite as: Mater. Plast.
https://doi.org/10.37358/Mat.Plast.1964

OSIM Nr. R102356
ISSN Print 0025-5289
ISSN Online 2668-8220
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Materiale Plastice (Mater. Plast.), Year 2020, Volume 57, Issue 3, 271-278

https://doi.org/10.37358/MP.20.3.5399

Victor Vlad Costan, Norina Consuela Forna, Oana Elena Ciurcanu, Daniela Sulea, Andrada Doscas, Zenovia Surlari, Dan Bosinceanu, Adrian Beznea, Gabriel Valeriu Popa, Silvia Fotea, Mihai Liviu Ciofu, Smaranda Buduru

Improvements to Biomaterials Structure Used in Acrylic Prostheses


Abstract:
Achievements in the field of biomaterials have as a basis three scientific domains: chemistry, biology and physics, then the technical application or the putting up culminating with clinical achievements. Dental prostheses, regardless of their type, replaced the lack of teeth. Although, mainly, many people that lost their teeth could continue life with the help of prostheses in a way pretty decent, dental prostheses shows some disadvantages that make them even unbearable for some people. The study aims at analyzing the biological behavior of sandwich type structures that reunite the classic acrylate and a silicone layer, namely the Flexite type elastic acrylate. We used a silicone material, RUBBER 732 RTV, which is frequently used in mucous-bone support deficits, especially in oral maxillofacial surgery post interventions. The tensile strength was tested ona TEXTENSER traction test machine, in view of establishing the chemical analysis of the 2 materials used. Regarding the maximum tensile strength for sandwich-type test samples, the flexible acrylate - silicone RUBBER 732 RTV structure broke at 1125N, while for the classic acrylate - silicone material a fracture value of 950N was recorded. The structure of the two biomaterials within the sandwich type test samples decisively influences the force and tension at which the fracture occurs, as well as the fracture route, which is linear, without the displacement of fragments, both the flexible acrylate and the silicone being affected, respectively a linear route at the level of the acrylic structure, affecting the acrylate - silicone interface for the classic acrylate - silicone test samples.


Keywords:
biomaterials; biocompatibility; acrylic protheses; pattern

Issue: 2020 Volume 57, Issue 3
Pages: 271-278
Publication date: 2020/9/30
https://doi.org/10.37358/MP.20.3.5399
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Creative Commons License
This article is published under the Creative Commons Attribution 4.0 International License
Citation Styles
Cite this article as:
COSTAN, V.V., FORNA, N.C., CIURCANU, O.E., SULEA, D., DOSCAS, A., SURLARI, Z., BOSINCEANU, D., BEZNEA, A., POPA, G.V., FOTEA, S., CIOFU, M.L., BUDURU, S., Improvements to Biomaterials Structure Used in Acrylic Prostheses, Mater. Plast., 57(3), 2020, 271-278.

Vancouver
Costan VV, Forna NC, Ciurcanu OE, Sulea D, Doscas A, Surlari Z, Bosinceanu D, Beznea A, Popa GV, Fotea S, Ciofu ML, Buduru S. Improvements to Biomaterials Structure Used in Acrylic Prostheses. Mater. Plast.[internet]. 2020 Jul;57(3):271-278. Available from: https://doi.org/10.37358/MP.20.3.5399


APA 6th edition
Costan, V.V., Forna, N.C., Ciurcanu, O.E., Sulea, D., Doscas, A., Surlari, Z.,... Buduru, S. (2020). Improvements to Biomaterials Structure Used in Acrylic Prostheses. Materiale Plastice, 57(3), 271-278. https://doi.org/10.37358/MP.20.3.5399


Harvard
Costan, V.V., Forna, N.C., Ciurcanu, O.E., Sulea, D., Doscas, A., Surlari, Z., Bosinceanu, D., Beznea, A., Popa, G.V., Fotea, S., Ciofu, M.L., Buduru, S. (2020). 'Improvements to Biomaterials Structure Used in Acrylic Prostheses', Materiale Plastice, 57(3), pp. 271-278. https://doi.org/10.37358/MP.20.3.5399


IEEE
V.V. Costan, N.C. Forna, O.E. Ciurcanu, D. Sulea, A. Doscas, Z. Surlari, D. Bosinceanu, A. Beznea, G.V. Popa, S. Fotea, M.L. Ciofu, S. Buduru, "Improvements to Biomaterials Structure Used in Acrylic Prostheses". Materiale Plastice, vol. 57, no. 3, pp. 271-278, 2020. [online]. https://doi.org/10.37358/MP.20.3.5399


Text
Victor Vlad Costan, Norina Consuela Forna, Oana Elena Ciurcanu, Daniela Sulea, Andrada Doscas, Zenovia Surlari, Dan Bosinceanu, Adrian Beznea, Gabriel Valeriu Popa, Silvia Fotea, Mihai Liviu Ciofu, Smaranda Buduru,
Improvements to Biomaterials Structure Used in Acrylic Prostheses,
Materiale Plastice,
Volume 57, Issue 3,
2020,
Pages 271-278,
ISSN 2668-8220,
https://doi.org/10.37358/MP.20.3.5399.
(https://revmaterialeplastice.ro/Articlegs.asp?ID=5399)
Keywords: biomaterials; biocompatibility; acrylic protheses; pattern


RIS
TY - JOUR
T1 - Improvements to Biomaterials Structure Used in Acrylic Prostheses
A1 - Costan, Victor Vlad
A2 - Forna, Norina Consuela
A3 - Ciurcanu, Oana Elena
A4 - Sulea, Daniela
A5 - Doscas, Andrada
A6 - Surlari, Zenovia
A7 - Bosinceanu, Dan
A8 - Beznea, Adrian
A9 - Popa, Gabriel Valeriu
A10 - Fotea, Silvia
A11 - Ciofu, Mihai Liviu
A12 - Buduru, Smaranda
JF - Materiale Plastice
JO - Mater. Plast.
PB - Materiale Plastice SRL
SN - 2668-8220
Y1 - 2020
VL - 57
IS - 3
SP - 271
EP - 278
UR - https://doi.org/10.37358/MP.20.3.5399
KW - biomaterials
KW - biocompatibility
KW - acrylic protheses
KW - pattern
ER -


BibTex
@article{MatPlast2020P271,
author = {Costan Victor Vlad and Forna Norina Consuela and Ciurcanu Oana Elena and Sulea Daniela and Doscas Andrada and Surlari Zenovia and Bosinceanu Dan and Beznea Adrian and Popa Gabriel Valeriu and Fotea Silvia and Ciofu Mihai Liviu and Buduru Smaranda},
title = {Improvements to Biomaterials Structure Used in Acrylic Prostheses},
journal = {Materiale Plastice},
volume = {57},
number = {3},
pages = {271-278},
year = {2020},
issn = {2668-8220},
doi = {https://doi.org/10.37358/MP.20.3.5399},
url = {https://revmaterialeplastice.ro/Articlegs.asp?ID=5399}
}
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