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SS-V: 4020 Coupled Thermal-Structural Analysis - Constrained Straight Bar Under Uniform Temperature
Test No. VTL03 Determine stresses along a constrained stright bar under uniform temperature.

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- Static Analysis
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- Thermal Loading
  - SS-V: 4000 Thermally Loaded Support Structure
    Test No. VTL01 Find stresses in a support stucture with a rigid beam, steel, and copper bars subjected to load and uniform temperature rise.
  - SS-V: 4010 Bimetallic Cantilever Beam
    Test No. VTL02 Determine the displacements at the centerline at free end and bending stress at outer fiber for a bimetallic cantelever beam.
  - SS-V: 4020 Coupled Thermal-Structural Analysis - Constrained Straight Bar Under Uniform Temperature
    Test No. VTL03 Determine stresses along a constrained stright bar under uniform temperature.
  - SS-V: 4030 Coupled Thermal-Structural Analysis - Constrained Straight Bar Under Linear Temperature Field
    Test No. VTL04 Determine stresses at the top and bottom of a constrained straight bar under linear temperature field.
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SS-V: 4020 Coupled Thermal-Structural Analysis - Constrained Straight Bar Under Uniform Temperature

Test No. VTL03 Determine stresses along a constrained stright bar under uniform temperature.

Definition

A straight 1 x 1 x 10 mm bar (Figure 1) is constrained at ends and is thermally loaded. A temperature change of 100 degrees Celsius is applied to one end of the bar and the rest of the bar surface is insulated.

The material properties are:

Properties: Value
Modulus of Elasticity: 2.1e+11 pa
Poisson's Ratio: 0.3
Coefficient of thermal expansion: 1.2e-5 m/m-C
Thermal conductivity: 43 W/m-K

Figure 1.

Figure 2.

Results

The bar is simulated using a 3D solid model. Thermal analysis is performed first. Due to applied thermal conditions, the bar reaches a constant temperature of 100 degrees Celsius everywhere.

Then the result of thermal analysis is used as input for structural analysis. In order to make use of reference data obtained for a 1D model of the bar, the following constraints are applied: sliding supports are applied to end surfaces of the bar and two vertices at one end of the bar are constrained in order to eliminate rigid body motion of the bar (Figure 2).


	Ref Solution	SimSolid	% Difference
Stress along bar (compression) [pa]	2.520E+08	2.516E+08	-0.16%

¹ W.C. Young, R.G. Budynas, Roark’s Formulas for Stress and Strain, Seventh Edition, McGraw-Hill Book Co., Inc., 2001, p. 759.