Products: Abaqus/Standard Abaqus/CAE
Surface property assignments:
can be used to specify geometric corrections for regions of a surface;
can be used to change the contact thickness used for regions of a surface based on structural elements or to add a contact thickness for regions of a surface based on solid elements;
can be used to specify surface offsets for regions of a surface based on shell, membrane, rigid, and surface elements;
can be applied selectively to particular regions within a general contact domain; and
cannot be applied to analytical rigid surfaces.
You can assign nondefault surface properties to surfaces involved in general contact interactions. These properties are considered only when the surfaces are involved in general contact interactions; they are not considered when the surfaces are involved in other interactions such as contact pairs. The general contact algorithm does not consider surface properties specified as part of the surface definition.
Surface properties for general contact in Abaqus/Standard are assigned at the beginning of an analysis and cannot be modified across steps.
The surface names used to specify the regions with nondefault surface properties do not have to correspond to the surface names used to specify the general contact domain. In many cases the contact interaction will be defined for a large domain, while nondefault surface properties will be assigned to a subset of this domain. Any surface property assignments for regions that fall outside the general contact domain will be ignored. The last assignment will take precedence if the specified regions overlap.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY |
This option must be used in conjunction with the *CONTACT option and should appear at most once for each value of the PROPERTY parameter discussed below; the data line can be repeated as often as necessary to assign surface properties to different regions. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties |
By default, contact calculations are based on unsmoothed, faceted representations of the finite element surfaces in a general contact domain. An optional contact smoothing technique simulates a more realistic representation of curved surfaces in the contact calculations, resulting in improved contact stress and pressure accuracy. This contact smoothing technique is discussed in “Smoothing contact surfaces in Abaqus/Standard,” Section 37.1.3.
The default surface thickness is equal to the original parent element thickness. Alternatively, you can specify a value for the surface thickness or a thickness scaling factor. A nonzero thickness can be assigned to solid element surfaces; for example, to model the effect of a finite thickness surface coating.
The default surface thickness is equal to the original parent element thickness.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=THICKNESS surface, ORIGINAL (default) |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Surface thickness assignments: Edit: Select surface, click the arrows to transfer surface to list of thickness assignments, and enter ORIGINAL in the Thickness column. |
You can specify the surface thickness value directly.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=THICKNESS surface, value |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Surface thickness assignments: Edit: Select surface, click the arrows to transfer surface to list of thickness assignments, and enter a value for the surface thickness magnitude in the Thickness column. |
You can apply a scale factor to any value of the surface thickness. For example, if you specify that the original parent element thickness should be used for surf1 and apply a scale factor of 0.5, a value of one half the original parent element thickness will be used for surf1 when it is involved in a general contact interaction (all other surfaces included in the general contact domain will use the default original parent element thickness). Scaling the surface thickness in this way can be used to avoid initial overclosures in some situations. Abaqus/Standard will automatically adjust surface positions to resolve initial overclosures (see “Controlling initial contact status in Abaqus/Standard,” Section 35.2.4) associated with general contact. However, if nodal position adjustments are undesirable (for example, if they would introduce an imperfection in an otherwise flat part, resulting in an unrealistic buckling mode), you may prefer to reduce the surface thickness and avoid the overclosures entirely.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=THICKNESS surface, value or label, scale_factor |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Surface thickness assignments: Edit: Select surface, click the arrows to transfer surface to list of thickness assignments, and enter a Scale Factor. |
A surface offset is the distance between the midplane of a thin body and its reference plane (defined by the nodal coordinates and element connectivities). It is computed by multiplying the offset fraction (specified as a fraction of the surface thickness) by the surface thickness and the element facet normal. This defines the position of the midsurface and, thus, the position of the body with respect to the reference surface; the coordinates of the nodes on the reference surface are not modified. Surface offsets can be specified only for surfaces defined on shell and similar elements (i.e., membrane, rigid, and surface elements). Surface offsets specified for other elements (e.g., solid or beam elements) will be ignored. By default, surface offsets specified in element section definitions will be used in the general contact algorithm.
You specify the surface offset as a fraction of the surface thickness. The surface offset fraction can be set equal to the offset fraction used for the surface's parent elements or to a specified value. Surface offsets specified for general contact do not change the element integration.
| Input File Usage: | Use the following option to use the surface offset fraction from the surface's parent elements (default): |
*SURFACE PROPERTY ASSIGNMENT, PROPERTY=OFFSET FRACTION surface, ORIGINAL Use the following option to specify a value for the surface offset fraction: *SURFACE PROPERTY ASSIGNMENT, PROPERTY=OFFSET FRACTION surface, offset The offset can be specified as a value or a label (SPOS or SNEG). Specifying SPOS is equivalent to specifying a value of 0.5; specifying SNEG is equivalent to specifying a value of –0.5. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Shell/Membrane offset assignments: Edit: Select surface, and click the arrows to transfer surface to list of offset assignments. In the Offset Fraction column, enter ORIGINAL to use the surface offset fraction from the surface's parent elements, enter SPOS to use a surface offset fraction of 0.5, enter SNEG to use a surface offset fraction of –0.5, or enter a value for the surface offset fraction. |
General contact in Abaqus/Standard includes a supplementary edge-to-surface contact formulation for feature edges of solid and shell bodies, as discussed in “Defining general contact interactions in Abaqus/Standard,” Section 35.2.1. By default, the edge-to-surface contact formulation considers perimeter edges and edges corresponding to initial geometric feature angles of 45° and higher. You can control the feature edge criterion globally or locally.
Some aspects of the contact property assignment options apply only to the surface-to-surface formulation (see “Contact properties for general contact in Abaqus/Standard,” Section 35.2.3, for further discussion of contact properties for general contact). The edge-to-surface formulation always uses the penalty enforcement method and only involves displacement degrees of freedom. For example, the edge-to-surface formulation does not contribute to thermal gap conductance across a contact interface.
The feature angle is the angle formed between normals of two facets connected to an edge. The angles between facets are based on the initial configuration. A negative angle results at concave meetings of facets; therefore, these edges are never included in the contact domain. Figure 35.2.2–1 shows some examples of how the feature angle is calculated for different edges.
The feature angle for edge A is 90° (the angle between
and 
); the feature angle for edge B is –25° (the angle between and 
). Edge C forms a T-intersection with three facets (shown in two dimensions in Figure 35.2.2–2); its feature angles are 0°, –90°, and –90°. Figure 35.2.2–2 Feature angles for a T-intersection (for example, edge C in Figure 35.2.2–1).
If a feature angle criterion is in effect (by default or because you specified it), geometric edges of solid and shell bodies with feature angles greater than or equal to the specified angle are included in the general contact domain. The contact inclusion and exclusion options (discussed in “Defining general contact interactions in Abaqus/Standard,” Section 35.2.1) apply to both the surface-to-surface contact formulation and the edge-to-surface contact formulation (and further control which portions of surfaces may interact with either formulation). The sign of the feature angle is considered when determining whether or not a geometric feature edge should be included in the general contact domain. For example, if a cutoff feature angle of 20° were specified, edge A would be activated as a feature edge in the contact model (because the feature angle of 90° is greater than the cutoff of 20°) but edges B and C would not be activated (because the feature angle at edge B is –25° and the maximum feature angle at edge C is 0°, which are both less than the cutoff of 20°). The cutoff feature angle cannot be set to less than 0° or more than 180°. Specifying a small cutoff feature angle (for example, less than 20°) may considerably increase run time without a major impact on the results compared to a larger cutoff angle (> 20°). The default feature angle cutoff is 45°.
Figure 35.2.2–3 illustrates further how the feature angle is used to determine which geometric feature edges are activated in the general contact domain.
Figure 35.2.2–3 Feature edges activated in the general contact domain for the default cutoff feature angle of 45°.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=FEATURE EDGE CRITERIA surface, feature_angle_value |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Feature edge criteria assignments: Edit: Select the surface, click the arrows to transfer the surface to the list of feature assignments, and enter a numerical value for the cutoff feature angle (in degrees) in the Feature Edge Criteria column. |
You can specify that only perimeter edges should be considered by the edge-to-surface formulation globally or in a local region. Perimeter edges occur on “physical” perimeters of shell elements and on “artificial” edges that occur when a subset of exposed facets on a body are included in the general contact domain. The classification of an edge as being on the perimeter of the contact domain (or as a geometric edge with a particular feature angle) is based on the contact inclusion and contact exclusion definitions and the mesh characteristics. When structural elements share nodes with continuum elements, the perimeter edges will not be activated on the structural elements because the criterion to designate them as such is no longer satisfied.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=FEATURE EDGE CRITERIA surface, PERIMETER EDGES |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Feature edge criteria assignments: Edit: Select the surface, click the arrows to transfer the surface to the list of feature assignments, and enter PERIMETER in the Feature Edge Criteria column. |
You can specify that no edges should be considered by the edge-to-surface formulation globally or in a local region.
| Input File Usage: | *SURFACE PROPERTY ASSIGNMENT, PROPERTY=FEATURE EDGE CRITERIA surface, NO FEATURE EDGES |
If the surface name is omitted, a default surface that encompasses the entire general contact domain is assumed. |
| Abaqus/CAE Usage: | Interaction module: Create Interaction: General contact (Standard): Surface Properties: Feature edge criteria assignments: Edit: Select the surface, click the arrows to transfer the surface to the list of feature assignments, and enter NONE in the Feature Edge Criteria column. |
