The name of the element component (eight-character maximum).
If the X2, Y2, Z2 fields are not defined, ROTATX, ROTATY, and ROTATZ specify the components of the rotational angle vector in the global Cartesian X, Y, Z directions.
If the X2, Y2, Z2 fields are defined, only ROTATX is required. ROTATX specifies the scalar rotational velocity about the rotational axis. The rotational direction of ROTATX is designated either positive or negative, and is determined by the “right hand rule.”
If the X2, Y2, Z2 fields are defined, X1, Y1, and Z1 define the coordinates of the beginning point of the rotational axis vector. Otherwise, X1, Y1, and Z1 are the coordinates of a point through which the rotational axis passes.
The coordinates of the end point of the rotational axis vector.
The CMROTATE command specifies the rotational motion velocity components ROTATX, ROTATY, and ROTATZ of an element component CM_NAME about a user-defined rotational axis. The rotational axis can be defined either as a vector passing through a single point or a vector connecting two points. CMROTATE can be used in static analyses (ANTYPE,STATIC) and modal analyses (ANTYPE,MODAL).
This command sets the constant rotational velocity on the nodes of the specified element component, despite any deformation at the nodes. This feature is primarily used for generating sliding contact at frictional contact interfaces in a brake squeal analysis. This type of analysis typically involves surface-to-surface contact between the brake pad and the rotating disk. The applicable contact elements, therefore, are CONTA173, CONTA174, and CONTA175.
A brake squeal analysis generally involves a linear perturbation modal analysis subsequent to a large-deformation static analysis with the Newton Raphson option set as NROPT,UNSYM. Therefore, CMROTATE is not applicable for multiple load step solves using the LSSOLVE command.
This command is also valid in PREP7.