asifile#

Mapdl.asifile(opt='', fname='', ext='', oper='', kdim='', kout='', limit='', **kwargs)#

Writes or reads one-way acoustic-structural coupling data.

APDL Command: ASIFILE

Parameters:
opt

Command behavior option:

WRITE - Write the structural results to the specified file.

READ - Read the structural results from the specified file.

fname

File name and directory path of a one-way acoustic-structural coupling data file (248 characters maximum, including the characters needed for the directory path). An unspecified directory path defaults to the working directory; in this case, you can use all 248 characters for the file name (defaults to jobname).

ext

File name extension of the one-way acoustic-structural coupling data file (defaults to .asi).

oper

Command operation:

NOMAP - No mapping occurs between the structural and acoustic models when reading the

structural results from the specified file (default).

MAP - Maps the results from the structural to the acoustic model. (See “Notes”.)

kdim

Interpolation criteria. Valid only when Oper = MAP.

kout

Outside region results. Valid only when Oper = MAP.

limit

Number of nearby nodes considered for interpolation. Valid only when Oper = MAP.

Notes

The ASIFILE command writes to, or reads from, a file containing one-way acoustic-structural coupling data.

Results data on the one-way coupling interface (defined by the SF,,FSIN) in the structural model are written to the one-way coupling result data file during the structural solution.

One-way coupling results data are read into the acoustic model as the velocity (harmonic) or acceleration (transient) excitation during the sequential acoustic solution.

If Oper = NOMAP, both structural and acoustic models must share the same node number on the one-way coupling interface.

If Oper = MAP:

The one-way coupling interface must be defined in the acoustic model (SF,,FSIN) such that it corresponds to the field-surface interface number (FSIN) in the structural model.

The output points are correct only if they are within the boundaries set via the specified input points.

Calculations for out-of-bound points require much more processing time than do points that are within bounds.

For each point in the acoustic destination mesh, the command searches all possible triangles in the structural source mesh to find the best triangle containing each point, then performs a linear interpolation inside this triangle. For faster and more accurate results, consider your interpolation method and search criteria carefully (see LIMIT).

One-way coupling excitation can be applied to multiple frequencies or time steps.