Use a Layered Material Slice (
in 2D;
in 3D) plot to display a layered material quantity on a slice created at a specified through-thickness location in 2D (plane or axisymmetric) or 3D. Add
Deformation,
Filter,
Material Appearance,
Selection (Plot Attribute),
Translation, or
Transparency (3D only) subnodes as needed. Right-click a
2D Plot Group or
3D Plot Group to add a
Layered Material Slice plot from the
More Plots submenu.
Once Reference surface is selected, the through-thickness location is taken from a layered material definition specified in a
Layered Material Link,
Layered Material Stack, or
Material node (defined as a single-layer material) under
Materials.
Enter one or more values for a Local z-coordinate for the
Physical option or
Local z-coordinate [-1,1] for the
Relative option. The bottom, middle, and top through-thickness location of a layered material, having a total thickness
d, can be defined as follows:
Click the Range button (
) to define a range of local
z-coordinates using the
Range dialog box.
If you chose Linear, then choose a linear displacement orientation from the
Orientation list:
x,
y (2D);
x,
y,
z, or
Diagonal (3D). For the first three options, also specify a relative separation distance in the
Relative x-separation field, for example. The
Diagonal option uses suitable displacements in the
x and
y directions; you can specify a relative separation in the
z direction in the
Relative z-separation field.
If you chose Rectangular, then choose a rectangular displacement orientation from the
Orientation list:
xy,
yx (2D);
xy,
yz,
zx,
yx,
zy, or
xz (3D). Also specify relative separation distances in the
Relative x-separation and
Relative y-separation fields, for example. The first letter indicates the index that increases the fastest (for example, for the
xy option, the
x values increase before the
y values).
Select the Show descriptions check box to add a description (annotation) for each of the slices. The description depends on the selected
Location definition: