Hi Silvia,
I am trying to use viscous material with zero length to represent a damper. I understand from the manual, viscous material can be used to used to construct a uniaxial material object with a non-linear elastic stress-strain-rate relation given by:
stress =C(strain-rate)^alpha.
My question is- With a zero length element, can I use the same material to construct a Force-deformation-rate (i.e force-velocity) relation given by:
Force=C(velocity)^alpha
Thanks.
-Lanka.
question on using viscous material with zero length element
Moderators: silvia, selimgunay, Moderators
Thanks,
I calculate C as a factor of critical damping (C= damping ratio*critical damping) to use in the second relationship. The unit of C in second case is kg/s , which is different from that of first case (kg/s/m).
How the "C" (i.e tangent) values are related between two relationships? How to specify C when I use this material with a zero length element? Is that Ok to use calculated C from second case , when I use this viscous material with a zero length element?
Thanks
I calculate C as a factor of critical damping (C= damping ratio*critical damping) to use in the second relationship. The unit of C in second case is kg/s , which is different from that of first case (kg/s/m).
How the "C" (i.e tangent) values are related between two relationships? How to specify C when I use this material with a zero length element? Is that Ok to use calculated C from second case , when I use this viscous material with a zero length element?
Thanks