ANSYS: How to interpret this remote force on a spiral disk?

AI Thread Summary
The discussion revolves around interpreting a remote force applied to a spiral disk in ANSYS simulation. The user seeks clarification on whether the force acts uniformly across the disk's face or primarily at the center, given that the edges are bolted down. Two scenarios are presented: if the outer holes are fixed, the disk behaves like a diaphragm with maximum deformation at the center; if the inner holes are fixed, maximum deformation occurs at the edges. The suggestion is made to replicate the geometry without spirals to better visualize the results. Understanding these deformation patterns is crucial for accurate simulation interpretation.
Anam.Rizvi
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Hi!
1.png


I am new to ANSYS and I am trying to understand a simulation done by some one else.
I have a disk with a spiral in it, and it looks like there is a remote force being applied at the centre of the disk, but spread over the entire face.
I don't understand how this force is being spread over the entire face of the disk because the edge is bolted down, and only the centre can go to full travel.
Basically, I need to know if the force is truly a load acting over the entire face of the disk, or if it is just acting at the centre and pulling the inner diameter face with it.

I have attached a picture of the force on the disk.

Any help is appreciated,
Thank you!
 

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  • Flexure Stress, Centre Force, During Travel of 20 mm (force).png
    Flexure Stress, Centre Force, During Travel of 20 mm (force).png
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can u explain which set of holes are bolted/fixed (the inner 6 in number or outer 12 in number)

Case one: outer fixed, in that case it will behave like a diaphragm. Edges being fixed, your central areas would displace.Although force acts on the whole surface, your deformation will change radially. It will be max at center and min (zero) at edges.

Case 2: Inner bolts fixed. In this case again your deformation will be radial. But you will have max deformation at periphery/edges and min(zero) at center

try making the same geometry without the spirals, replicate everything else and see what results you get. It will help you imagine better
 
RKD89 said:
can u explain which set of holes are bolted/fixed (the inner 6 in number or outer 12 in number)

Case one: outer fixed, in that case it will behave like a diaphragm. Edges being fixed, your central areas would displace.Although force acts on the whole surface, your deformation will change radially. It will be max at center and min (zero) at edges.

Case 2: Inner bolts fixed. In this case again your deformation will be radial. But you will have max deformation at periphery/edges and min(zero) at center

try making the same geometry without the spirals, replicate everything else and see what results you get. It will help you imagine better

Yes I understand ! Thank you!
 

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