algorithmic modeling for Rhino
I hope this diagram expresses my question/request reasonably clearly:
The second workaround performs a bit better, but still falls into the problem situation if the other forces in the simulation are strong enough.
Does anyone have any clever suggestions for how to achieve this with the existing forces? If not, consider this a feature request - it seems to me it could work in a similar way to the bending force, with three input points.
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Hi Andrew,
I'd like to give it a try, can you post your files?
However I have a feeling this could be solved with these famous spring fail inputs. I don't know why Daniel didn't implement it yet, it doesn't look like a big deal.
Cheers
Fred.
Hi Andrew,
Thanks for the clear description. I don't think this will be possible with the currently available components, because a plane would need to be specified for the rotation in order to measure and react to reflex angles.
I am working on some new forces based on rotation about an axis defined by 2 points.
- Driveshaft/Vortex filament : This will accelerate a single point about the axis
- Hinge/Servomotor : This will provide control over the angle (measured about the axis) between 2 points.
This will also include the option of Cutoffs, to work similarly to those for springs, and you could use this to limit the angle to a certain range, as you describe. It should also be useful for adding bending stiffness to meshes with a non-flat rest state.
and Fred - Thanks for reminding me about the spring breaking. I will still try and implement this. The intention with that is that if a spring extends or compresses beyond a certain limit, it will permanently stop working (unlike with cutoffs, where it only stops working while it is overextended).
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