Patch test for thermal-electrical elements

This problem contains basic test cases for one or more Abaqus elements and features.

The following topics are discussed:

Elements tested
Problem description
Reference solution
Results and discussion
Input files

ProductsAbaqus/Standard

Elements tested

DCAX3E
DCAX4E
DCAX6E
DCAX8E

DC2D3E
DC2D4E
DC2D6E
DC2D8E

DC3D4E
DC3D6E
DC3D8E
DC3D10E
DC3D15E
DC3D20E

Problem description

The meshes used for the thermal-electrical element tests are the same as those used for the corresponding heat transfer elements.

Boundary conditions:

$T = C_{0} + C_{1} x + C_{2} y + C_{3} z$ , where T is the temperature, $C_{0}$ through $C_{3}$ are arbitrary constants, and x, y, z denote spatial location. $ϕ = D_{0} + D_{1} x + D_{2} y + D_{3} z$ , where $ϕ$ is the electrical potential, $D_{0}$ through $D_{3}$ are arbitrary constants, and x, y, z denote spatial location. Temperature and electrical potentials are prescribed at every node along the boundary of the mesh.

Reference solution

Fluxes: Since the temperature and electrical potential fields are chosen to be linear, they have constant spatial gradients and, thus, have constant fluxes at every integration point.

Results and discussion

All elements yield exact solutions.

Input files

eca3vfpj.inp: DCAX3E elements.
eca4vfpj.inp: DCAX4E elements.
eca6vfpj.inp: DCAX6E elements.
eca8vfpj.inp: DCAX8E elements.
ec23vfpj.inp: DC2D3E elements.
ec24vfpj.inp: DC2D4E elements.
ec26vfpj.inp: DC2D6E elements.
ec28vfpj.inp: DC2D8E elements.
ec34vfpj.inp: DC3D4E elements.
ec36vfpj.inp: DC3D6E elements.
ec38vfpj.inp: DC3D8E elements.
ec3avfpj.inp: DC3D10E elements.
ec3fvfpj.inp: DC3D15E elements.
ec3kvfpj.inp: DC3D20E elements.