unc25
Mechanical
- Jun 21, 2013
- 3
Hello all,
This is my first post here and I am hoping that someone would help me out.
I would like to get the displacement at the point of interest. Here is how I have carried out the forced vibration simulation: After an "initial step", I chose "Linear Perturbation" to first extract the natural frequency. My next step was "Modal Dynamics". I then applied the load in the form of a sine wave under the same step. I have an isotropic material. When I try to submit the job, I received following warning:
"A steady state subspace projection based, or mode based dynamic analysis is required for a model with non-diagonal mass matrix. Abaqus/standard subspace projection based or modal based dynamic analysis for a model with non-diagonal mass matrix (e.g. using substructure) might give incorrect reaction forces. However other output quantities will be correct."
I am unaware of how severe this warning is. Can anyone please guide me regarding this? Have I selected the correct approach for the forced vibrational analysis?
Thanks a lot!
Mandar
This is my first post here and I am hoping that someone would help me out.
I would like to get the displacement at the point of interest. Here is how I have carried out the forced vibration simulation: After an "initial step", I chose "Linear Perturbation" to first extract the natural frequency. My next step was "Modal Dynamics". I then applied the load in the form of a sine wave under the same step. I have an isotropic material. When I try to submit the job, I received following warning:
"A steady state subspace projection based, or mode based dynamic analysis is required for a model with non-diagonal mass matrix. Abaqus/standard subspace projection based or modal based dynamic analysis for a model with non-diagonal mass matrix (e.g. using substructure) might give incorrect reaction forces. However other output quantities will be correct."
I am unaware of how severe this warning is. Can anyone please guide me regarding this? Have I selected the correct approach for the forced vibrational analysis?
Thanks a lot!
Mandar
