Reference:

Analytical solution.

Problem description:

A steel ring with inner radius R₁ and outer radius R₂ is considered. Temperatures T₂ and T₁ are applied along the external and internal circuits, respectively. Find the temperature distribution over the width of the ring between points A (x = 0 mm) and B (x = 20 mm) with a step of 5 mm.

Problem sketch:

Type of created problem:

Spatial structure (X, Y, Z, UX, UY, UZ).

Geometric characteristics:

R₁ = 20 mm; R₂ = 40 mm.

Material properties:

Thermal conductivity coefficient of steel: K = 45.4 W/(m·°С).

Boundary conditions:

Inner and outer contour of the ring: X = Y = Z = UX = UY = UZ = 0.

Loads:

Т₁ = 20 °С; Т₂ = 40 °С.

Model description:

The system is modeled using 160 eight-node solid elements (FE type is 36). The temperature field analysis is performed.

Analytical solution:

Calculation results:

 Temperature distribution in the cross section of the ring, °С