Investigation of the Thermal Stresses in a Steel Plate
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Investigation of the
Thermal Stresses
in a Steel Plate
Investigation of the
Thermal Stresses
in a Steel Plate
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The purpose of this exercise is to display a coupled thermal/structural analysis.
A steel link, without internal stresses, is connected immovably to two static solid structures.
One of the solid structures is heated. As heat is transferred from the solid structure into the link, the link will attempt to expand. However, since it is pinned this cannot occur and as such, stress is created in the link.
A steady-state solution of the resulting stress will be found to simplify the analysis
75 OC
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Parameter Value
Initial temperature of steel link and static solid structures -
0 OC (273 K)
Temperature of heating - 75 OC (348 K)
Modulus of elasticity (Young’s Moduls EX) -
200 GPa
Thermal conductivity (KXX) - 60,5 W/m.K
Thermal expansion coefficient (Poission’s Ratio PRXY) -
12.10-6 /K
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Creating geometry
and defining
thermal properties
Creating geometry
and defining
thermal properties
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Thermal Environment – Create Geometry
and Define Thermal Properties
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1. Change Title of working fileUtility Menu > File > Change Title ...
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2. Open preprocessor menuANSYS Main Menu > Preprocessor
3. Define KeypointsPreprocessor > Modeling > Create > Keypoints > In Active CS...
Define 2 Keypoint with Coordinates (x,y,z) 1 (0,0) 2 (1,0)
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4. Create LinesPreprocessor > Modeling > Create > Lines > Lines > In Active Coord
Create a line joining Keypoints 1 and 2, representing a link 1 meter long.
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5. Define the Type of ElementPreprocessor > Element Type > Add/Edit/Delete...
For this problem we will use the LINK33 (Thermal Mass Link 3D conduction) element. This element is a uniaxial element and has the ability to conduct heat between its nodes.
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6. Define Real ConstantsPreprocessor > Real Constants... > Add...
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In the 'Real Constants for LINK33' window, enter the following geometric properties:Cross-sectional area AREA: 4e-4
This defines a beam with a cross-sectional area of 2 cm X 2 cm.
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7. Define Element Material PropertiesPreprocessor > Material Props > Material Models > Thermal > Conductivity > IsotropicIn the window that appears, enter the following properties for steel: KXX: 60.5
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8. Define Mesh SizePreprocessor > Meshing > Size Cntrls > ManualSize > Lines > All Lines...
For this example we will use an element edge length of 0.1 meters.9. Mesh the framePreprocessor > Meshing > Mesh > Lines > click 'Pick All'
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10. Write EnvironmentThe thermal environment (the geometry and thermal properties) is now fully described and can be written to memory to be used at a later time. Preprocessor > Physics > Environment > Write
In the window that appears, enter the TITLE Thermal and click OK.
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11. Clear EnvironmentPreprocessor > Physics > Environment > Clear > OKDoing this clears all the information prescribed for the geometry, such as the element type, material properties, etc. It does not clear the geometry however, so it can be used in the next stage, which is defining the structural environment.
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Creating structural
environment - defining
physical properties
Creating structural
environment - defining
physical properties
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5312.Switch Element TypePreprocessor > Element Type > Switch Elem Type Choose Thermal to Struc from the scoll down list.
This will switch to the complimentary structural element automatically. In this case it is LINK 8. A warning saying you should modify the new element as necessary will pop up. In this case, only the material properties need to be modified as the geometry is staying the same.
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Young’s Moduls EX
Poission’s Ratio PRXY
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13. Define Element Material PropertiesPreprocessor >Material Props >Material Models >Structural >Linear >Elastic >IsotropicIn the window that appears, enter the following geometric properties for steel: i. Young's Modulus EX: 200e9 ii. Poisson's Ratio PRXY: 0.3
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Preprocessor > Material Props > Material Models > Structural > Thermal Expansion Coef >Isotropic i. ALPX: 12e-6
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14. Write EnvironmentThe structural environment is now fully described. Preprocessor > Physics > Environment > Write In the window that appears, enter the TITLE Struct
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Applying loads and
solving
Applying loads and
solving
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15. Define Analysis TypeSolution > Analysis Type > New Analysis > Static
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16. Read in the Thermal Environment Solution > Physics > Environment > Read Choose thermal and click OK.
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If the Physics option is not available under Solution, click Unabridged Menu at the bottom of the Solution menu. This should make it visible. Or use Physics from Preprocessor Menu (as in upper slide)
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Read in the Thermal Environment (It was made in upper slide) Solution > Physics > Environment > Read Choose thermal and click OK.
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17. Apply ConstraintsSolution > Define Loads > Apply > Thermal > Temperature > On Keypoints Set the temperature of Keypoint 1, the left-most point, to 348 Kelvin.
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18. Solve the SystemSolution > Solve > Current LS
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The thermal solution has now been obtained.
If you plot the steady-state temperature on the link, you will see it is a uniform 348 K, as expected.
This information is saved in a file labelled Jobname.rth, were .rth is the thermal results file.
Since the jobname wasn't changed at the beginning of the analysis, this data can be found as file.rth.
We will use these results in determing the structural effects.
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19. List ResultsList > Results > Nodal Solution > Nodal Temperature and click OK
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20. Close the Solution MenuMain Menu > FinishIt is very important to click Finish as it closes that environment and allows a new one to be opened without contamination. If this is not done, you will get error messages.
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21. Read in the Structural EnvironmentSolution > Physics > Environment > Read
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22. Apply Constraints Solution > Define Loads > Apply > Structural > Displacement > On Keypoints
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Fix Keypoint 1.
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for all DOF's
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and Keypoint 2 in the UX direction
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23. Include Thermal EffectsSolution > Define Loads > Apply > Structural > Temperature > From Therm AnalyAs shown below, enter the file name File.rth. This couples the results from the solution of the thermal environment to the information prescribed in the structural environment and uses it during the analysis.
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24. Define Reference TemperaturePreprocessor > Loads > Define Loads > Settings > Reference TempFor this example set the reference temperature to 273 degrees Kelvin.
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25. Solve the System Solution > Solve > Current LS
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Postprocessing: Viewing
the Results
Postprocessing: Viewing
the Results
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26. Get Stress DataSince the element is only a line, the stress can't be listed in the normal way. Instead, an element table must be created first.General Postproc > Element Table > Define Table > Add
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Fill in the window as shown below.
[CompStr > By Sequence Num > LS > LS,1
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And close menu
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27. List the Stress DataGeneral Postproc > Element Table > List Elem Table > COMPSTR > OK
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The following list should appear.