| |
Standard mesh |
Activates the Voronoi-Delaunay
meshing scheme for subsequent meshing operations. |
| |
Curvature-based mesh |
Activates the curvature-based
meshing scheme for subsequent meshing operations. The mesher
creates more elements in higher-curvature areas automatically
(without need for mesh control). The Curvature-based mesher supports
multi-threaded surface and volume meshing for assembly and
multibody part documents. The Standard mesher supports only
multi-threaded volume meshing.
|
| |
Blended curvature-based mesh |
Activates the Blended
curvature-based meshing scheme. This mesher automatically adapts
the element size to the local curvature of the geometry to
create a smooth mesh pattern. Use the Blended curvature-based
mesher for models that failed to mesh with the Standard or
Curvature-based mesher. The Blended curvature-based mesher is
the default mesher for new Simulation studies. There are cases where the Blended
curvature-based mesher can overcome mesh failure, generating
a solid mesh with higher-quality elements (lower Jacobian
and Aspect ratios) than the Standard or the Curvature-based
meshers.
The table lists the
Simulation licenses that support single-core processing and
multicore processing for the Blended curvature-based
mesher.
| Licenses with Single-core
Processing |
Licenses with Multicore
Processing |
- Simulation Xpress
- Simulation in SOLIDWORKS
Premium
- SOLIDWORKS Simulation
Standard
The meshing process can be slower when
running on a single central processor unit
(CPU). |
- SOLIDWORKS Simulation
Professional
- SOLIDWORKS Simulation
Premium
There is no limit to the number of physical
cores that the Blended curvature-based mesher can
access. |
The local mesh control settings for the
minimum element size and maximum element size that the
Blended curvature-based mesher accepts can be outside the
range defined by the Minimum
element size
 and
Maximum element
size of the global mesh settings.
The Blended curvature-based mesher does not support a continuous mesh
(common nodes between touching boundaries) for bonded
sets. Mesh controls are not transferable between
touching boundaries of bodies that meshed independently
and are bonded. For example, you may need to apply mesh
controls separately to the touching edges of two bodies
that are bonded.
|
 |
Calculate Minimum Element
Size |
This option is available for the Blended
curvature-based mesh. Calculates the minimum element size
based on either the minimum radius of geometric curvature or
the minimum element value set for mesh control.
- Include minimum radius of curvature from
geometry
- Include minimum element size from mesh
control
When you select both options, the algorithm selects the
minimum of the two element size values.Click
Calculate to calculate the
minimum element size.
Click
Apply to accept the calculated
minimum element size. |
 |
Unit |
Sets units for mesh sizes and
tolerance. |
|
Global Size |
Available for standard mesh
only. Sets the global average element size. The software
suggests a default value based on the model volume and surface
area. |
| |
Tolerance |
Available for standard mesh
only. Sets the tolerance value. The program calculates the mesh
tolerance value as the minimum of these quantities:
- 5% of the global element size (default
value)
- 30% of the smallest mesh element size
defined for mesh control definitions in the Mesh Control
PropertyManager
- The user-defined mesh tolerance value
in the Mesh
PropertyManager (if the user enters a value smaller than
the default mesh tolerance value)
If the distance between two nodes is smaller than this
value, the nodes are merged unless otherwise specified by
contact conditions. Adjusting the tolerance can help resolve some meshing
problems. For example, if meshing fails because of free
edges, increasing the tolerance can solve the
problem.
|
| |
Automatic transition |
Available for standard mesh
only. When checked, the program automatically applies mesh
controls to small features, holes, fillets, and other fine
details of your model. Clear Automatic transition before meshing large
models with many small features and details to avoid generating
large numbers of elements. See example below. |
|
Maximum element size |
Available for the
curvature-based meshers only. The maximum element size is used
for boundaries with lowest curvature. |
|
Minimum element size |
Available for the
curvature-based meshers only. The minimum element size is used
for boundaries with the highest curvature. |
 |
Min number of elements in a circle |
Available for the
curvature-based meshers only. Determines the
element size by the minimum number of elements that fit in a
hypothetical circle.
For the Blended curvature-based
mesher, the computed element size must be between the Maximum element size and
Minimum element
size. For the Curvature-based mesher, this setting
is enforced even if the computed element size is outside the
range defined by the Maximum element
size and Minimum
element size.See How Element
Size Is Determined.
|
 |
Element size growth ratio |
Available for curvature-based
meshers only. Specifies the global element size growth ratio
starting from regions of high curvatures in all directions.
|