Gaskets are thin sealing components that are positioned between
structural components.
(For detailed information on gasket theory, see
Gasket Elements.) The
general procedure for modeling gaskets in three-dimensional space involves the
following steps:
In the
Part module,
define the solid geometry. Gasket parts are typically very thin, flat solids.
In the
Property module,
define a gasket material. The material can be a regular material or one that
includes special gasket behaviors. See
Defining materials for gaskets,
for more information.
In the
Property module,
define a gasket section that refers to the gasket material. Then assign the
gasket section to the gasket region.
In the
Interaction module,
establish appropriate tie constraints or contact interactions between the
gasket surfaces and the surfaces of adjacent regions.
In the
Mesh module,
assign the top-down swept meshing technique or the bottom-up meshing technique
to the gasket region. Regardless of the meshing technique that you choose, you
must sweep, extrude, or revolve the mesh in a direction normal to the gasket
plane to produce gasket elements with the correct orientation. See
Specifying the sweep path,
or
Bottom-up meshing,
for more information.
In the
Mesh module,
assign a gasket element type to the gasket region, and mesh the region.
When you model gaskets with solids, you can use one or a combination of the
following techniques to define the interaction between the gaskets and
surrounding regions:
You can create a separate gasket part and then use tie constraints or
contact interactions to couple the gasket part instance to the other part
instances.
You can create a thin region within a part and then assign a gasket
section and element type to that region. This approach is recommended if
compatibility between the gasket mesh and the meshes of adjacent regions is
important.
Additional steps are necessary if the gasket model is composed of several
layers and inserts. For example,
Figure 1
illustrates a gasket modeled as a solid layer with an embedded shell-like
insert.
The
Abaqus/CAE
representation of the idealized gasket model is shown in
Figure 2.
If you are working with gaskets composed of several layers and inserts, you
must perform the following additional tasks:
Use the
Partition toolset
to partition the solid gasket region so that an internal surface is created at
the position of the insert.
In the
Property module,
define a skin reinforcement on the internal surface that represents the insert.
(See
Defining skin reinforcements,
for more information.) The gasket sections that you assign to the solid and to
the insert are usually different, as are their materials.
No meshing is required (or allowed) for the insert skin, but you must
assign a three-dimensional line gasket element type to the skin
in the
Mesh module.
See
Assigning element types to skin or stringer reinforcements,
for more information.