Henrik Sönnerlind
COMSOL Employee
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Posted:
4 years ago
18.05.2021, 03:52 GMT-4
solid.RFy is the reaction force to prescribed displacements in the y direction. Actually, it is the same as reacf(v). It has a value in each constrained node, so if you want to see the total reaction force over a certain set of constrained boundaries, you need to do a summation (this is done using an integration operator).
solid.RFytot is the sum of the reaction forces for the whole model. If you are loading by displacement control, it will be zero. If you load by forces, it will equal the total applied loads.
There is, however, one more difference: solid.RFy is only the reaction to pointwise Dirichlet conditions. solid.RFytot includes some other types of reaction forces, for example from elastic supports (Spring Foundation).
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Henrik Sönnerlind
COMSOL
solid.RFy is the reaction force to prescribed displacements in the y direction. Actually, it is the same as reacf(v). It has a value in each constrained node, so if you want to see the total reaction force over a certain set of constrained boundaries, you need to do a summation (this is done using an integration operator).
solid.RFytot is the sum of the reaction forces for the whole model. If you are loading by displacement control, it will be zero. If you load by forces, it will equal the total applied loads.
There is, however, one more difference: solid.RFy is only the reaction to pointwise Dirichlet conditions. solid.RFytot includes some other types of reaction forces, for example from elastic supports (Spring Foundation).