13.33. LINK33 - 3-D Conduction Bar

Matrix or Vector	Shape Functions	Integration Points
Conductivity and Specific Heat Matrices; and Heat Generation Load Vector	Equation 11–13	None

13.33.1. Other Applicable Sections

Heat Flow describes the derivation of thermal element matrices and load vectors as well as heat flux evaluations.

13.33.2. Matrices and Load Vectors

The conductivity matrix is:

(13–27)

where:

A = area (input as AREA on R command)

K_x = conductivity (input as KXX on MP command)

L = distance between nodes

The specific heat matrix is:

(13–28)

where:

ρ = density (input as DENS on MP command)

C_p = specific heat (input as C on MP command)

This specific heat matrix is a diagonal matrix with each diagonal being the sum of the corresponding row of a consistent specific heat matrix. The heat generation load vector is:

(13–29)

where:

13.33.3. Output

The output is computed as:

(13–30)

and

(13–31)

where:

q = thermal flux (output as THERMAL FLUX)

T_I = temperature at node I

T_J = temperature at node J

Q = heat rate (output as HEAT RATE)