Hi @a.fabregat
The short answer is the problem occurs because of mathematics. The effect is exaggerated when the elements are too large or distorted, or when the heat flow changes direction rapidly within an element. You can try a finer mesh in the areas of the problem, but it may not be possible to eliminate the problem entirely. (It depends on the model, thickness, materials, loads, etc.) As long as the result is not too extreme, the usual "solution" is to ignore it.
The longer answer is the following (from the article on the Knowledge Network, Temperature results of a simulation are out of range😞
The abnormal temperatures occur because
- The heat flow through the elements is calculated based on the applied loads and the element shape.
- The temperature of the nodes is then calculated based on the calculated heat flow through the element and the element shape.
- Sometimes the temperature gradient necessary to support the calculated heat flow through the element can result in one of the nodes being colder (hotter) than it should be. Such conditions usually occur at a corner or edge of the model that has a load applied.
The abnormal temperature is less accurate (colder than the coldest applied load, or hotter than the hottest applied load) when the element is large, distorted, the applied load has a high magnitude (such as a large convection coefficient), or when the thermal conductivity has a large change from one part to another.
Let us know if you have any other questions.
John Holtz, P.E. Global Product Support
Autodesk, Inc. If not provided already, be sure to indicate the version of Inventor Nastran you are using!"The knowledge you seek is at knowledge.autodesk.com" - Confucius 😉
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