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Command Reference
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CORIOLIS
CORIOLIS, Option, --, --, RefFrame, RotDamp Applies the Coriolis effect to a rotating structure.
SOLUTION: InertiaMP ME ST <> <> <> <> <> <> <> <> PP EME MFS
Option
Flag to activate or deactivate the Coriolis effect:
1 (ON or YES) — Activate. This value is the default.
0 (OFF or NO) — Deactivate.
--, --Unused fields.
RefFrame
Flag to activate or deactivate a stationary reference frame.
1 (ON or YES) — Activate.
0 (OFF or NO) — Deactivate. This value is the default.
RotDamp
Flag to activate or deactivate rotating damping effect.
1 (ON or YES) — Activate.
0 (OFF or NO) — Deactivate. This value is the default.
Notes
The CORIOLIS command is used for analyses in either a rotating or a stationary reference frame, and performs differently according to the designated RefFrame value. Specific restrictions and elements apply to each case, as follows:
Command Reference
Contains proprietary and confidential information of ANSYS, Inc.
and its subsidiaries and affiliates
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value. Specific restrictions and elements apply to each case, as follows:
ROTATING REFERENCE FRAME (RefFrame = OFF):
The command applies the Coriolis effect in the following structural element types: MASS21, SHELL181, PLANE182, PLANE183, SOLID185, SOLID186, SOLID187, BEAM188, BEAM189, SOLSH190, SHELL281, PIPE288 and PIPE289. It also applies this effect in the PLANE223, SOLID226, and SOLID227 analyses with structural degrees of freedom.
In a rotating reference frame, both the coriolis and spin-softening effects contribute to the gyroscopic moment. Therefore, ANSYS applies spin-softening by default for dynamic analyses. If a rotational velocity is specified (OMEGA or CMOMEGA), centrifugal forces will be included.
To include coriolis effects in a large deflection prestressed analysis, follow the procedure for linear perturbation detailed in Considerations for Rotating Structures . In a nonlinear transient analysis (ANTYPE,TRANS and NLGEOM, ON), any spinning motion applied through either the IC of the D commands will include the coriolis effect without having to issue the CORIOLIS command. Refer to Rotating Structure Analysis in the Advanced Analysis Guide for more information.
STATIONARY REFERENCE FRAME (RefFrame = ON):
The command activates the gyroscopic damping matrix in the following structural elements: MASS21, BEAM188, SHELL181, BEAM189, SOLID185, SOLID186, SOLID187, SOLID272, SOLID273, SHELL281, PIPE288, and PIPE289.
The rotating structure must be axisymmetric about the axis of rotation.
Static analysis (ANTYPE, STATIC) does not support Coriolis effects with a stationary reference frame. However, you can include the gyroscopic effects in a prestresses analysis follow the procedure detailed in Considerations for Rotating Structures .
Command Reference
Contains proprietary and confidential information of ANSYS, Inc.
and its subsidiaries and affiliates
Page: 3
Rotating damping effect (RotDamp = ON) applies only for the stationary reference frame. Therefore, this effect is supported only by the elements listed above that generate a gyroscopic damping matrix. Proportional damping must be present in the element (MP,BETD or BETAD). It is also supported by element COMBI214 with non zero and axisymmetric damping characteristics (non zero real constants C11=C22 and C21=C12=0).
For more information about using the CORIOLIS command, see Rotating Structure Analysis in the Advanced Analysis Guide and also in the Rotordynamic Analysis Guide. For details about the Coriolis and gyroscopic effect element formulations, see the Mechanical APDL Theory Reference.
This command is also valid in PREP7.
Menu Paths
Main Menu>Preprocessor>Loads>Define Loads>Apply>Structural>Inertia>Angular Veloc>Coriolis
Main Menu>Solution>Define Loads>Apply>Structural>Inertia>Angular Veloc>Coriolis
Release 14.5 - © SAS IP, Inc. All rights reserved.
