Thermal fatigue サッカーギャンブル of molds
In this サッカーギャンブル, we carried out a strength サッカーギャンブル of the casting mold. The temperature distribution obtained from the casting サッカーギャンブル software can be used as the boundary condition for thermal stress サッカーギャンブル. This makes it possible to evaluate the strength of the mold, taking into account the load applied to it during the casting process. High-cycle fatigue サッカーギャンブル is performed based on the stress obtained. The stress amplitude, mean stress, and safety factor are calculated. ADVENTURECluster excels at large-scale solid element models, resulting in fast calculation times.
サッカーギャンブル overview
| Target | Mold |
|---|---|
| Items | Fatigue サッカーギャンブル, heat transfer サッカーギャンブル, static サッカーギャンブル |
| No. of nodes/parts | 1,585,847 nodes / 7 parts |
|---|
Background/Issues
The scale of the mold assembly model is large, so it takes a long time to calculate.
Analytical Needs
We want to analyze the strength of the mold, taking into account the load that occurs during the casting process. We want to use the amount of mold opening to predict burrs. We want to identify the cause of the damage caused by high temperatures.
Advantages
Using the ADVENTURECluster standard mapping tool "collabo", it is possible to easily map the temperature data of casting サッカーギャンブル software. Large-scale models can be calculated quickly.