Particle behavior calculation of サッカー賭け battery electrodes
It is said to be difficult to measure the particle behavior of サッカー賭け batteries in actual tests. This analysis is an example of how three types of software, SimLab, Geodict, and ADVENTURECluster, were combined to efficiently perform everything from modeling to structural analysis of an サッカー賭け battery. GeoDict is used to create particle models, SimLab is used to create mesh data, and ADVENTURECluster is used to reproduce particle behavior during charging and discharging.
サッカー賭け overview
| Target | サッカー賭け battery |
|---|---|
| Items | Static サッカー賭け |
| No. of nodes | 1,189,114 nodes |
| Computation time | 17 hours 23 min / 20 cores |
|---|---|
| Coupled software | GeoDict, SimLab |
Background/Issues
Modeling man-hours and computation time are required due to the need to calculate contact between many particles.
Analytical Needs
Calculation of particle behavior during charging and discharging of lithium サッカー賭け batteries, active materials and solid electrolytes.
Determining if damage is caused by injection pressure
Advantages
Reproducible up to complex contact state calculations