Abstract
The aim of this study was to investigate elasto-plastic thermal stresses in a thermoplastic composite disc that is reinforced by steel fibers, curvilinearly. Finite element method (FEM) was used to calculate the thermal stress distribution in the model of composite disc. The solution was performed by ANSYS software code. In order to evaluate the effects of uniform temperature, different values of it were carried out on the model of composite disc, uniformly. Radial and tangential stresses were calculated under a uniform temperature distribution which was selected from 60 C to 120 C. Because of the composite disc having different thermal expansions in radial and tangential directions, thermal stresses were produced in it by the applied uniform temperature values. The magnitude of the tangential stress component for elastic and elasto-plastic solutions was higher than the radial stress component. The radial stress components were obtained as compressive on the inner and outer surfaces. Besides the tangential stress components were calculated as compressive and tensile on the inner and outer surfaces, respectively. The absolute values of it were the highest on the inner surface both radial and tangential directions. The residual stress components also were calculated using elastic and elasto-plastic solution results. The obtained results showed that the positions of the improved thermal stresses and residual stresses were considerably affected increasing uniform temperature value.
Highlights
Construction engineering history may have reached a new stage with the advent and availability of the new, low-cost, high-performance structural composites
This paper was concerned with the examination of the uniform temperature effect on the thermal stresses that is improved in a composite disc, curvilinearly
The distributions of thermal elastic and elasto-plastic stress components were calculated by Finite element method (FEM), ANSYS software that is a general-purpose finite element code was used for solving this problem
Summary
Construction engineering history may have reached a new stage with the advent and availability of the new, low-cost, high-performance structural composites. Sayman [2] investigated a thermal stress analysis on an aluminum metal-matrix orthotropic composite disc by using an analytical solution. Eraslan and Orcan [4] studied an analytical solution for the elastic-plastic stress distribution in rotating variable thickness solid discs. You et al [6] improved a numerical method for the analysis of deformations and stresses in the elastic-plastic rotating discs with arbitrary cross-sections of continuously varying thicknesses and arbitrary variable density made of nonlinear strain-hardening materials. This paper was concerned with the examination of the uniform temperature effect on the thermal stresses that is improved in a composite disc, curvilinearly.
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