7th International Mediterranean Science and Engineering Congress, Antalya, Turkey, 24 - 26 October 2022, pp.239
Abstract: A practical method is implemented for determining two-dimensional temperature distributions and thermal
stresses in axially symmetrical composite cylinder liner which is composed of aluminium and Sic subjected to internal
pressure and thermal loads. The mechanical and thermal properties of the cylinder liner, where the ceramic reinforcement is
thought to be homogeneously dispersed in the matrix, are determined according to the Halpin-Tsai homogenization scheme.
The thermal stress and temperature distributions in the composite cylinders which have different SiC volume fractions are
also investigated to determine the effect of SiC on thermal stress and temperature distribution. The governing equations
on temperature and stress fields are derived as differential form and these equations are solved by using Pseudo Spectral
Chebyshev method. The validation of the method are provided by using the Ansys package program based on the finite
element method.