Pipe Shoe Modelling

Hi,

I like the direction you go with modelling.

1. No need to set rigid pipe - Mike described why.

2. If clamps are tight no movement is possible, so the friction factor does not matter unless you know the force acting on the pipe from the clamp... so I advise to...

3. Add a stiff line stop instead.

All three supports combined reflect the expected behaviour of this type of support. We should be able to build support assemblies in AutoPIPE to reflect in the model realistically what we have in piping systems. However, this option is not available in the program. So far we have to 'sculpt'.

4. Add steel member below - make it stiff.

5. Connect all 3 AP supports to one end of this member

6. Another end should anchored. If you want to let it move horizontally - modify anchor data.

7. If you need to take into account - add a short pipe (stiff, zero weight) instead of an anchor. Then Add V-stop to the second end of the pipe with a friction factor appropriate (e.g. 0.3?). Or another AutoPIPE support.

Remember that details are essential and the method mentioned above may or may not be appropriate to your case and requires testing.

You may have a combined structure loading/support reaction ready to use as a result of summing up force in V-stop.

If you are to fix the foot to the secondary support - instead of V-stop insert an Anchor. I believe you know what to do next... :-)

Hi,

I like the direction you go with modelling.

1. No need to set rigid pipe - Mike described why.

2. If clamps are tight no movement is possible, so the friction factor does not matter unless you know the force acting on the pipe from the clamp... so I advise to...

3. Add a stiff line stop instead.

All three supports combined reflect the expected behaviour of this type of support. We should be able to build support assemblies in AutoPIPE to reflect in the model realistically what we have in piping systems. However, this option is not available in the program. So far we have to 'sculpt'.

4. Add steel member below - make it stiff.

5. Connect all 3 AP supports to one end of this member

6. Another end should anchored. If you want to let it move horizontally - modify anchor data.

7. If you need to take into account - add a short pipe (stiff, zero weight) instead of an anchor. Then Add V-stop to the second end of the pipe with a friction factor appropriate (e.g. 0.3?). Or another AutoPIPE support.

Remember that details are essential and the method mentioned above may or may not be appropriate to your case and requires testing.

You may have a combined structure loading/support reaction ready to use as a result of summing up force in V-stop.

If you are to fix the foot to the secondary support - instead of V-stop insert an Anchor. I believe you know what to do next... :-)

Some remarks:

1. You added two line stops and element which expands - so forces must be big;

2. In my suggested approach:

2.1 two Guides assembly take over  lateral movement, bending along vertical and lateral axes, while

2.2 line stop only takes over axial force. 

Thanks.

I'm a bit unsure how to model the point(4)to(7),but I would definitely love to learn to find the combined load.

Attached are what I've done to what I know, I've connected the each guides to each end point. However, there is an error analyze the study. Could you please have a look and point me to the correct direction?

/cfs-file/__key/communityserver-discussions-components-files/275801/TRIAL.dat