Abstract
This research is concerned with the transient plane thermoelastic problems in functionally graded orthotropic materials. The material properties such as the specific heat c, the density ρ, the thermal conductivities λx and λy, the coefficients of linear thermal expansion αx and αy, Young’s moduli Ex and Ey in x and y directions, respectively, are assumed to be functions of position (x). Laplace transform and separation of variables are used to analyze the temperature field in functionally graded orthotropic strips. The stress function is used for the plane thermoelastic problem in the functionally graded orthotropic materials. As a specific example, functionally graded orthotropic strip was analyzed. Numerical results are shown for the effects of orthotropy of material properties on temperature and thermal stresses. They show that the effects of orthotropy on temperature and thermal stresses are very large. The proposed analytical method is useful in the design of structures exposed to severe temperature environment. As a specific example, functionally graded orthotropic strip was analyzed.
Disclosure statement
There is no conflict of interest as reported by the authors.