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three-phase-lag
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Evaluation of heat conduction in a laser irradiated tooth with the three-phase-lag bio-heat transfer model
, Article Thermal Science and Engineering Progress ; Volume 7 , 2018 , Pages 203-212 ; 24519049 (ISSN) ; Nouri-Borujerdi, A ; Mohammadzadeh, A ; Najafi, M ; Sharif University of Technology
Elsevier Ltd
2018
Abstract
In this study, a dental short pulse laser with a Gaussian beam profile was applied normally to the top surface of a mineral organ i.e. the human tooth for a root canal therapy. A numerical method of finite difference is adopted to solve the time-dependent heat transfer equation. The real boundary conditions of thermal insulation on the sharp segment of the root canal and periodic heat flux on the top boundary of the tooth were applied. The comparison of a three-phase-lag (TPL) bio-heat transfer model with other heat transfer studies has shown that this new bio-heat model (TPL) could accurately predict the thermal behaviour of a non-homogeneous structure such as the human tooth. It was...
Stress behaviour across human tooth by temperature gradient resulting of laser irradiation
, Article Journal of Mechanical Engineering and Sciences ; Volume 14, Issue 1 , 2020 , Pages 6218-6228 ; Nouri Borujerdi, A ; Najafi, M ; Sharif University of Technology
Universiti Malaysia Pahang
2020
Abstract
The authors report the simulation of temperature distribution and thermally induced stress in the premolar tooth under ND-YAG pulsed laser beam. The Three-Phase-Lag (TPL) non-Fourier model is proposed to describe the heat conduction in the human tooth with nonhomogeneous inner structures. A premolar tooth comprising enamel, dentin, and pulp with real shapes and thicknesses are considered and a numerical method of finite difference was adopted to solve the time-dependent TPL bio-heat transfer, strain and stress equations. The surface heating scheme is applied for simulation of laser therapy. The aim of this laser therapy is that the temperature of pulp reaches to 47oC. The results are...