Special purpose#

These POST1 commands are used for various special purposes.

`Mapdl.bfint`([fname1, ext1, fname2, ext2, ...])	Activates the body force interpolation operation.
`Mapdl.cbdof`([fname1, ext1, fname2, ext2, ...])	Activates cut-boundary interpolation (for submodeling).
`Mapdl.cmsfile`([option, fname, ext, cmskey])	Specifies a list of component mode synthesis (CMS) results files for
`Mapdl.cyccalc`([fileprefix, fileformat])	Calculates results from a cyclic harmonic mode-superposition analysis
`Mapdl.cycfiles`([fnamerst, extrst, ...])	Specifies the data files where results are to be found for a cyclic
`Mapdl.cycphase`([type_, option])	Provides tools for determining minimum and maximum possible result
`Mapdl.cycspec`([label, node, item, comp])	Defines the set of result items for a subsequent CYCCALC command in
`Mapdl.exoption`([ldtype, option, value])	Specifies the EXPROFILE options for the Mechanical APDL to ANSYS CFX profile file transfer.
`Mapdl.expand`([nrepeat, hindex, icsys, ...])	Displays the results of a modal cyclic symmetry analysis.
`Mapdl.exprofile`([ldtype, load, value, ...])	Exports interface loads or loads on selected nodes to an ANSYS CFX
`Mapdl.exunit`([ldtype, load, untype, name])	Specifies the interface load unit labels to be written to the export
`Mapdl.fssparm`([port1, port2])	Calculates reflection and transmission properties of a frequency
`Mapdl.fsum`([lab, item])	Sums the nodal force and moment contributions of elements.
`Mapdl.hfang`([lab, phi1, phi2, theta1, theta2])	Defines or displays spatial angles of a spherical radiation surface for
`Mapdl.hfsym`([kcn, xkey, ykey, zkey])	Indicates the presence of symmetry planes for the computation of
`Mapdl.intsrf`([lab])	Integrates nodal results on an exterior surface.
`Mapdl.kcalc`([kplan, mat, kcsym, klocpr])	Calculates stress intensity factors in fracture mechanics analyses.
`Mapdl.nforce`([item])	Sums the nodal forces and moments of elements attached to nodes.
`Mapdl.nldpost`([label, key, fileid, prefix])	Gets element component information from nonlinear diagnostic files.
`Mapdl.plcamp`([option, slope, unit, freqb, ...])	Plots Campbell diagram data for applications involving rotating
`Mapdl.plcfreq`([spec, sectbeg, sectend])	Plots the frequency response for the given CYCSPEC specification.
`Mapdl.plchist`([spec, freqpt])	Plots a histogram of the frequency response of each sector for the
`Mapdl.plfar`([lab, option, phi1, phi2, nph1, ...])	Plots pressure far fields and far field parameters.
`Mapdl.plmc`([lstep, sbstep, timfrq, kimg, ...])	Plots the modal coordinates from a mode-superposition solution.
`Mapdl.plnear`([lab, opt, kcn, val1, val2, ...])	Plots the pressure in the near zone exterior to the equivalent source
`Mapdl.plzz`([rotvel, deltarotvel])	Plots the interference diagram from a cyclic modal analysis.
`Mapdl.pras`([quantity, loadstep, substep])	Calculates a specified acoustic quantity on the selected exterior
`Mapdl.prcamp`([option, slope, unit, freqb, ...])	Prints Campbell diagram data for applications involving rotating
`Mapdl.prfar`([lab, option, phi1, phi2, nph1, ...])	Prints pressure far fields and far field parameters.
`Mapdl.prnear`([lab, opt, kcn, val1, val2, ...])	Prints the pressure in the near zone exterior to the equivalent source
`Mapdl.reswrite`([fname, cflag])	Appends results data from the database to a results file.
`Mapdl.rmflvec`(**kwargs)	Writes eigenvectors of fluid nodes to a file for use in damping
`Mapdl.rsplit`([option, label, name1, name2, ...])	Creates one or more results file(s) from the current results file based
`Mapdl.rstmac`([file1, lstep1, sbstep1, ...])	APDL Command: RSTMAC
`Mapdl.spoint`([node, x, y, z])	Defines a point for moment summations.
`Mapdl.spmwrite`([method, nmode, inputs, ...])	Calculates the state-space matrices and writes them to the SPM file.