CELAS4F
Bulk Data Entry Defines a scalar spring element that is connected only to scalar points without reference to a property entry. The corresponding properties on this entry are not affected by translational and rotational stiffness limits specified using PARAM,ELASSTIF.
Format
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
---|---|---|---|---|---|---|---|---|---|
CELAS4F | EID | K | S1 | S2 | GE | S |
Example
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
---|---|---|---|---|---|---|---|---|---|
CELAS4F | 42 | 6.2-3 | 2 |
Definitions
Field | Contents | SI Unit Example |
---|---|---|
EID | Unique element
identification number. No default (Integer > 0) |
|
K | Stiffness of the scalar
spring. No default (Real) |
|
S1, S2 | Scalar point
identification numbers. S1 or S2, but not both, may be blank or zero indicating a constrained coordinate. Default = 0 (Integer ≥ 0; S1 ≠ S2) |
|
GE | Damping
coefficient. GE is ignored in transient analysis, if PARAM, W4 is not specified. Default = 0.0 (Real) |
|
S | Stress
coefficient. Default = 0.0 (Real) |
Comments
- This single entry completely defines the element since no material or geometric properties are required.
- Only one scalar spring element may be defined on a single entry.
- A scalar point specified on this entry does not need to be defined on a SPOINT Bulk Data Entry.
- The element force of a spring is
calculated from the equation:
(1) Where,- Stiffness coefficient for the scalar element.
- Displacement of the first degree-of-freedom listed on the CELAS4 entry
Element stresses are calculated from the equation:(2) Where, is the stress coefficient as defined above. - This card is represented as a spring or mass element in HyperMesh.