SPCD
Bulk Data Entry Defines an enforced displacement value for static analysis, an enforced displacement, velocity or acceleration for dynamic analysis and a thermal boundary condition for heat transfer (or transient heat transfer) analysis.
It can also be used to define the EXCITEID field (Amplitude "A") of dynamic loads in RLOAD1, RLOAD2, TLOAD1 and TLOAD2 Bulk Data Entries.
Format
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
---|---|---|---|---|---|---|---|---|---|
SPCD | SID | GID/GSETID | C | D | GID/GSETID | C | D | ||
GSET |
Example
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
---|---|---|---|---|---|---|---|---|---|
SPCD | 100 | 32 | 436 | -2.6 | 5 | 1 | +2.9 |
Definitions
Field | Contents | SI Unit Example |
---|---|---|
SID | A static load set
identification number. (Integer > 0) |
|
GID/GSETID | GID: Grid or scalar point identification number. (Integer > 0 or <PartName.number>) 8 GSETID: An
identification for a SET of grid points. In this case, the
GSET continuation line must be specified.
(Integer > 0 or <String>) |
|
C | Component numbers in the
global coordinate system. (6 ≥ Integer ≥ 0; up to six unique such digits may be placed in the field with no embedded blanks) |
|
D | Values of
D will override the values specified on an
SPC Bulk Data Entry, if selected for use in
the same subcase.
|
|
GSET | Indicates that the G/GSETID field is identified as a SET of Grid points at which the SPCD enforced motion values are applied. |
Comments
- The degree-of-freedom (G and C) referenced on this entry must also be referenced on an SPC or SPC1 Bulk Data Entry and selected by the SPC Subcase Information command in the same subcase.
- For use in linear static and linear steady state heat transfer analyses, the load set identification number must be selected by the 8 Subcase information command.
- For use in dynamic analysis, the load set identification number must be referenced by the EXCITEID field of an RLOAD1, RLOAD2, TLOAD1, or TLOAD2 Bulk Data Entry that has enforced motion specified in its TYPE field.
- The Bulk Data LOAD combination entry cannot combine an SPCD load.
- This method of applying enforced displacements in static analysis is equivalent to that of using an SPC entry. For static and dynamic analyses, when the SPSYNTAX setting on the SYSSETTING I/O Option is set to CHECK (default) or STRICT, it is required for grid/component pairs (G#/C#) that the component be 0 or blank when the grid reference is a scalar point (SPOINT), and that the component be ≥ 1 when the grid reference is a structural grid point (GRID). When SPSYNTAX is set to MIXED, it is allowed for grid/component pairs (G#/C#) that the grid reference be either a scalar point (SPOINT) or a structural grid point (GRID) when the component is 0, 1 or blank; interpreting all of these as 0 for scalar points and as 1 for structural grids. When the component is greater than 1, the grid reference must always be a structural grid (GRID).
- The SPCD units for rotational degrees-of-freedom is radians.
- For use in transient heat transfer analysis, the load set identification number must be referenced by the EXCITEID field of a TLOAD1 or TLOAD2 Bulk Data Entry that has enforced temperature specified in its TYPE field (TYPE=1).
- Supported local entries in specific parts can be referenced by the use of "fully-qualified references" on SPCD entries in the model. A fully-qualified reference (PartName.number) is similar to the format of a numeric reference. PartName is the name of the part that contains the referenced local entry (part names are defined on the BEGIN Bulk Data entry in the model). number is the identification number of a referenced local entry in the part PartName. See Parts and Instances in the User Guide for detailed information on the use of fully-qualified references.
- String based labels allow for easier visual identification of sets, including when being referenced by other cards. For more details, refer to String Label Based Input File in the Bulk Data Input File.
- This card is represented as a constraint load in HyperMesh.