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Community Tip - Did you get an answer that solved your problem? Please mark it as an Accepted Solution so others with the same problem can find the answer easily. X

Force/Displacement graph

hjung-2
4-Participant

Force/Displacement graph

Hi,

I am struggling to get a force-displacement graph under increasing force like below;

I already read a related topic started by ptc-4273428 in this community, but I'm afraid that I failed to understand it totally. I tried to make it with a simple beam model for test, but I just could get graphs that have X-axis presenting length of the beam (position on the edge of the beam), not increasing force.

Are there anyone can show me the way to get the force-displacement graph in another way?

 

Thanks,

HJ

 

ACCEPTED SOLUTION

Accepted Solutions

See attached Images.

In summary:

Use non-linear /  load Histories

Apply unit Load

In the analysis definition - Load Time dependence...

   Define a FUNCTION vs time for the load value

In the Analysis definition - Output

  make sure the final master step = final time in your time dependence.

  make sure you have enough master steps and spacing to make a good chart.

Define a measure for the displacement. (do not select time dependence)

 

When plotting results you may need to export to excel and scale the TIME by the appropriate weight from your FUNCTION to obtain the applied load.  In my example the time = the load applied because I apply 1N * 100 at final time of 100. and evenly ramp from zero load. (my FUNCTION has slope = 1)

 

If this does not answer your question please upload your image using either "Choose Files" or the CAMERA icon in the formatting bar.

 

View solution in original post

4 REPLIES 4

See attached Images.

In summary:

Use non-linear /  load Histories

Apply unit Load

In the analysis definition - Load Time dependence...

   Define a FUNCTION vs time for the load value

In the Analysis definition - Output

  make sure the final master step = final time in your time dependence.

  make sure you have enough master steps and spacing to make a good chart.

Define a measure for the displacement. (do not select time dependence)

 

When plotting results you may need to export to excel and scale the TIME by the appropriate weight from your FUNCTION to obtain the applied load.  In my example the time = the load applied because I apply 1N * 100 at final time of 100. and evenly ramp from zero load. (my FUNCTION has slope = 1)

 

If this does not answer your question please upload your image using either "Choose Files" or the CAMERA icon in the formatting bar.

 

hjung-2
4-Participant
(To:SweetPeasHub)

Hi sweetpeahub,

Thank you so much for very helpful reply.

The key point of your lesson to me was using the 'measure'.

I learned that when the 'measure' selected for the vertical axis, I could choose the 'time' for the horizontal axis.(attached image)

Now, I have another question. Can I let the horizontal axis show the 'Force', not the time? 

I thought I can use the measure for the x-axis, and because there is not the Force in the predefined measure list, I tried to define a measure that present the force, but it is not simple...



 

This equation for load as function of time:

AppliedLoad(time) = LoadMagnitude * TimeFunction(time)

 

This has loadmagnitude = 1

 

Load Magnitude

 

This has TIME_FUNCTION(time)

TimeFunction

 

 

3 ways. Way 1 and 2 discussed in previous post.  I will re-state.

 

1.   Have 1:1 slope for time vs load applied.  Just the label is incorrect.  Change the label.

Capture9.JPG

 

2.   Save-as the graph "deflection vs time" to Excel .xls (or .grt which is text file) and use spreadsheet (Like Excel) to convert time to load.  Compute or enter the load manually in spreadsheet.  XY chart in spreadsheet.

Capture10.JPG

 

3.  In some cases the input force applied is found by the reaction force in the same direction at the constraint.  Since load vector = -1Z then Reaction Z.  This is a simple FEA.  Verify results are correct for other FEA problems.

 

Capture7.JPG

Capture8.JPG

 

 

 

 
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