ECAFLX
| (Object data – 3D) | |
|---|---|
| Update History: (New definition has been introduced in v10.0) | Last updated on : 13-08-2013 |
ECAFLX Object1, Ndata, Default
- Num(1), node1(1) node2(1) node3(1) node4(1) Flux(1)
-
: :
Num(Ndata), node1(Ndata) node2(Ndata) node3(Ndata) node4(Ndata) Flux(Ndata)
| OPERAND | DESCRIPTION | DEFAULT |
|---|---|---|
| Object | Object number | None |
| Ndata | Number of face data sets | None |
| Default | Default value for edge based atom flux | 0.0 |
| Num(i) | ith data pair | None |
| node1(i) | 1st node defining face i | |
| node2(i) | 2nd node defining face i | |
| node3(i) | 3rd node defining face i | |
| node4(i) | 4th node defining face i | |
| Flux(i) | Distributed atom flux of ith data pair | 0.0 |
DEFINITION
ECAFLX specifies the distributed atom heat flux to be applied to individual faces.
REMARKS
Distributed atom flux is defined as atom per unit time per unit area. The atom flux is assumed to be constant over the edge it is defined over. In order to activate atom flux, the faces must be specified using the keyword ECCATM with a boundary condition code of 3. Atom flux may be specified as a function of time with keyword ECATFN. Applicable object types: Rigid, Elastic, Plastic, Elastoplastic, and Porous.
RELATED TOPICS
Object data: Diffusion Keywords: ECCATM(2D), ECCATM (3D), ECTMFN (2D), ECTMFN (3D)