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Field List
Field Name | Field Description | Field Value |
---|---|---|
Bench | Blast floor/tip head level according to the block model reference heights and the selected bench height. | Setup > Bench Templates |
Blast Type | Production/Trim/Contour/Ramp/Free Dig. | Designer > Properties > Blast Types |
Blast.<PropertyName> | User-specified blast properties. | Designer > Properties > |
...
Blast Properties | ||
Count | Solid counting field. | Numerical value |
Flitch | Dig floor. | Setup > Bench Templates |
Full Name | Full solid name (Mine/Pit/Stage/Bench/Blast). | Setup > Phase Details > Levels |
...
and Designer > Properties > Level Names | ||
Is Excluded | True - blocks are excluded from the model. False - blocks are NOT excluded from the model. "Excluded" blocks are not included in exports. | Designer > Properties > Is Excluded |
Name.<Number> | Splits the full solid name (Mine/Pit/Stage/Bench/Blast) and returns the nth item. Example, in the full name Reserves/M1/P1/P101/700/12: Reserves - Name.1, M1 - Name.2, P1 - Name.3, P101 - Name.4, etc. | Setup > Phase Details > Levels |
...
and Designer > Properties > Level Names | ||
Parcel | Block model material type. | Setup > Block Models |
Perimeter | Full perimeter of the solid. | (calculated value) |
Reserves Source | Block model used in reserving. | Setup > Phase Details |
Reserves.Volume | Volume as per Block model |
...
*. | Setup > Block Models | |
Reserves.<FieldName> | Block model values. | Setup > Block Models |
Surface Area | Solid surface area. | (calculated value) |
...
Terminal Node
...
Indicates if this is a leaf block (blast solids may have dig solid children)
...
True/False value
Type | Blast block/Dig block. | Blast/Dig solid |
Volume | Exact solid volume*. | (calculated value) |
WallControl.<FieldName> | User-specified wall length properties. | Setup > Wall Control Designs |
*Solid Volume vs. Reserves Volume
The following cases may result in a difference between the Solid Volume and Reserves Volume.
Clipped Block Models
If a block model is clipped by "centroid in/centroid out", then this introduces air gaps inside the pit solid.
To resolve this issue, use an inflated pit solid to clip the block model.
Depleted Block Models
If the block model volume field is factored by an air percentage, then this introduces air gaps inside the pit solid.
To resolve this issue, use the absolute block model cell volume (dx * dy * dz) in the volume field.