Perović, Jasmina

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  • Perović, Jasmina (1)
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Author's Bibliography

Calculation of maximum tensile and shear forces in restorative materials using finite element method

Milošević, Miloš; Tatić, Uroš; Sedmak, Simon; Perović, Jasmina; Miletić, Vesna

(Trans Tech Publications Ltd, Durnten-Zurich, 2014) 

TY  - CONF
AU  - Milošević, Miloš
AU  - Tatić, Uroš
AU  - Sedmak, Simon
AU  - Perović, Jasmina
AU  - Miletić, Vesna
PY  - 2014
UR  - https://smile.stomf.bg.ac.rs/handle/123456789/1883
AB  - The purpose of this paper was to determine tensile loading that leads to dental restoration failure, i.e. the critical values of stress. In order to analyze stress distribution within the restoration and tooth, mechanical properties of materials and tissues, such as Young modulus and Poisson's ratio were taken into account. An additional purpose of the paper was to determine whether tensile or shear stresses that occur in the restorative composite and the surrounding enamel cause this failure. Tensile stress is caused by forces acting in the direction perpendicular to the cross-section of a given element, whereas shear stresses are caused by forces parallel to said cross section. A 3D numerical model of a tooth including three different materials (dentine, enamel and compo-site) was made and used for these calculations. These results will be used as a base for the physical experiment.
PB  - Trans Tech Publications Ltd, Durnten-Zurich
C3  - Proceedings of the 14th Symposium on Experimental Stress Analysis & Materials Testing
T1  - Calculation of maximum tensile and shear forces in restorative materials using finite element method
VL  - 601
SP  - 151
EP  - +
DO  - 10.4028/www.scientific.net/KEM.601.151
ER  - 
@conference{
author = "Milošević, Miloš and Tatić, Uroš and Sedmak, Simon and Perović, Jasmina and Miletić, Vesna",
year = "2014",
abstract = "The purpose of this paper was to determine tensile loading that leads to dental restoration failure, i.e. the critical values of stress. In order to analyze stress distribution within the restoration and tooth, mechanical properties of materials and tissues, such as Young modulus and Poisson's ratio were taken into account. An additional purpose of the paper was to determine whether tensile or shear stresses that occur in the restorative composite and the surrounding enamel cause this failure. Tensile stress is caused by forces acting in the direction perpendicular to the cross-section of a given element, whereas shear stresses are caused by forces parallel to said cross section. A 3D numerical model of a tooth including three different materials (dentine, enamel and compo-site) was made and used for these calculations. These results will be used as a base for the physical experiment.",
publisher = "Trans Tech Publications Ltd, Durnten-Zurich",
journal = "Proceedings of the 14th Symposium on Experimental Stress Analysis & Materials Testing",
title = "Calculation of maximum tensile and shear forces in restorative materials using finite element method",
volume = "601",
pages = "151-+",
doi = "10.4028/www.scientific.net/KEM.601.151"
}
Milošević, M., Tatić, U., Sedmak, S., Perović, J.,& Miletić, V.. (2014). Calculation of maximum tensile and shear forces in restorative materials using finite element method. in Proceedings of the 14th Symposium on Experimental Stress Analysis & Materials Testing
Trans Tech Publications Ltd, Durnten-Zurich., 601, 151-+.
https://doi.org/10.4028/www.scientific.net/KEM.601.151
Milošević M, Tatić U, Sedmak S, Perović J, Miletić V. Calculation of maximum tensile and shear forces in restorative materials using finite element method. in Proceedings of the 14th Symposium on Experimental Stress Analysis & Materials Testing. 2014;601:151-+.
doi:10.4028/www.scientific.net/KEM.601.151 .
Milošević, Miloš, Tatić, Uroš, Sedmak, Simon, Perović, Jasmina, Miletić, Vesna, "Calculation of maximum tensile and shear forces in restorative materials using finite element method" in Proceedings of the 14th Symposium on Experimental Stress Analysis & Materials Testing, 601 (2014):151-+,
https://doi.org/10.4028/www.scientific.net/KEM.601.151 . .
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