A project by DCS Computing and CFDEMresearch
Hallo everybody,
I'm wondering how the contact force between particle and an stl-wall is calculated?
In the pair_gran doc the particle-particle contact force is explained, does it also apply to particle-wall contact?
If yes, what does the parameter m* stands for?
Kind regards
Philipp
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ckloss | Thu, 06/06/2013 - 17:04
>>In the pair_gran doc the
>>In the pair_gran doc the particle-particle contact force is explained, does it also apply to particle-wall contact?
yes
>>If yes, what does the parameter m* stands for?
m* is the effective mass of the contact. For a particle-wall contact (assuming infinite wall mass), it's the mass of the particle
Cheers
Christoph
knoe_ph | Fri, 06/07/2013 - 09:04
OK thank you very much, thats
OK thank you very much, thats what I assumed.
One more question: What's the main difference between the hertzian and hookeian approach? Where are the advantages/disadvantages?
Kind regards
Philipp
aaigner | Fri, 06/07/2013 - 10:14
Hertz vs. Hooke
Hi,
those approaches differ in the calculation of the normal and tangential stiffness coefficients. In case of Hooke (and constant material properties) the coefficient is a constant, in contrast the stiffness calculated by Hertz depends on the particle overlap. Therefore, Hooke is a linear force-displacement model and Hertz is non-linear.
For more details check the pair_gran docu.
Kind regards
Andreas