Every surface and polygon object can be equipped with a "RFVolume" world space to modifier to refine the collision geometry and control how the particle "see" the object
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Geometry Detail
Here you find five levels of quality. The higher the level, the longer the simulation will take, but the fluid-object collision will also be more accurate. Changing the level influences and updates the "Cell Size" value found in the "Volume" section. In most cases, the calculated value provides the best balance between simulation speed and accuracy. If you want to control "Cell Size" manually deactivate the associated "Auto Cell Size" checkbox.
Cell Size
RealFlow | 3ds Max's fluid and material engines are cell-based and therefore, colliding objects have to be rasterized internally. The smaller the cells, the better and more accurate the collision, but at the cost of longer simulation times. By default, "Cell Size" is calculated automatically based on the "Collision Geometry Detail" level. For manual control uncheck "Auto". With "Auto Cell Size" turned off, "Cell size" can be animated. This allows you to refine collision detection over time and speed up the simulation, e.g. from coarse to accurate.
Surface Offset
This parameter creates a solid extension around the object and prevents the fluid from penetrating its surface:
- The offset can be visualized with RFVolume world space modifier World Space Modifier > Display Volume
- Positive and negative values are accepted.
- To control this parameter manually, disable "Auto Surface Offset".
Domain Offset
In order to improve fluid-object interaction you can increase this parameter. The effect is that the fluid will “see” the object earlier. This can be interesting for fast-moving fluids. By default, "Domain Offset" is calculated automatically based on the "Collision Geometry Detail" level. For manual control uncheck "Auto Domain Offset".
Volume Mode
Here are the three possible modes:
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