Results 11 to 20 of 24
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06-22-2015, 01:36 PM #11
- Join Date
- Jun 2015
- Posts
- 8
Ahh... I see that now. The gist of the commentary in the video is intended to be read as: "As users we see this... or we do that... to our models... to our simulations." We'll try to make the commentary more clear in future videos.
As far as I know I can't repair the video without breaking the link, but rest assured have no desire to claim ownership of any user's models.
Thanks,
Michael
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06-22-2015, 01:38 PM #12
- Join Date
- Jun 2015
- Posts
- 8
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06-24-2015, 12:00 PM #13
that does look like a very useful tool.
Not sure I understand a lot of the terminology as i never studied engineering.
But I can test it to see if your program says a piece willl break when i destruction test it and it actually does break :-)
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06-25-2015, 06:54 AM #14
As CA said, I'm not familiar with a lot of the terminology, nor theory. Are there any good guides or tutorials for understanding the basics of what you have here? I mean, I think I know what I'm looking at, but I'm not totally sure what it's trying to tell me.
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07-05-2015, 04:15 PM #15
Well, I stood up and started throwing things around the room.
Ran 1 simulation on a design I had already deployed into use, and had noticed a delamination failure, I then had cobbled up a Hubblesque fix for it, and it's doing fine, but the amount of material I had to add to the design, post deployment, negated any weight and space advantages I had originally gained. The failure was mainly due to me designing to an absolute minimum, and not building in redundancy. If I had (and later versions do), I still would have had a weight advantage, but a much stronger piece.
Well, after running the simulation, it predicted a failure EXACTLY where the delamination had occurred, which is the dark red line on the near vertical post. I'm going to use this service again to pre-test any of my load bearing designs. If I had this service 6 months ago, Would have saved me quite a bit of headache.
ServoSledDeform.JPG
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07-05-2015, 07:34 PM #16
Interesting stuff here, at least in my mind, lol.
After Noticing the fail point originally months ago, I extended (in design only, haven't produced yet) one of the support structures on the sled. Showed a noticeable reduction in stress points, aside from one particular location.
servosleddeformC.JPG
Extended that same structure even more, thinking it would eliminate that stress point. But even with doubling+ the support, it showed no noticeable improvement.
ServoSledDeformD.JPG
Interesting stuff here....
Thanks for the site guys, it's already helped a lot!
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07-05-2015, 11:30 PM #17
Are you obliged to have a 90 degrees sharp angle at this point ? If not, round off your corner, it will help.
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07-06-2015, 12:24 PM #18
- Join Date
- Jun 2015
- Posts
- 8
Also note that "red" does not necessarily mean "bad". The legend simply maps the minimum stress value to blue and the maximum stress value to red. Compare the numeric value that corresponds to "red" in each of your designs to judge the amount of improvement/not.
We are happy to hear you've found it useful.
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07-06-2015, 12:40 PM #19
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07-06-2015, 01:44 PM #20Simulation "Simulation 1" was successfully destroyed.
New member with print issue
06-11-2024, 08:57 AM in Tips, Tricks and Tech Help