00:08Greetings friends, in this video we are going to learn the basic principles for element analysis
00:13finite, this is related to the subject of machine element design, with the topic
00:18Stress concentrator simulation. It's going to be a fairly simple setup, the important thing is
00:26It's about seeing how we can start testing it under certain conditions and draw conclusions.
00:31Based on the analysis, the material to be treated will be carbon steel, and we can see its characteristics.
00:40Material physics. During the design process before arriving at this support design, they were able to
00:49There are equations for both mechanical equilibrium and strength of materials that yielded
00:54that this particular piece could be the result of carrying or resisting a certain stress
00:59Now, we practically started moderating it without any prior calculations, and it
01:05What I'm going to do is test it under certain strength parameters and see the possible results.
01:10From that, I can draw some conclusions. Inventor is acknowledging that
01:18That piece will be fixed at certain points, so it's not necessary in some cases.
01:23As in this particular case, add the bolt or welding fastener only.
01:28I'm telling the inventor that for some reason he's not going to show movement in his part
01:45Now I will present the load report on the X, Y, and Z axes; this object will be stimulated.
01:51With 300 kilograms, I'm going to multiply that by 9.81 and it gives me 2943 N, which is equivalent to
01:59at 300 kilograms with respect to gravity. I will leave the stress reports in the
02:10Video description. Now I will analyze the following support whose stress load will be
02:25longitudinally and by gravity. The material will be forged copper with its physical characteristics.
02:36There's an option called mesh, I'm going to activate it now. Notice how the object's geometry is...
02:41divided into small portions, this is because robberies are occurring on those corners which are
02:47Connections, which is one of the principles under which Inventor will calculate the dividing piece
02:52the piece in regions and practically solves the equations to show me what happens from there
02:58These regions in the overall object, of course, the finer the mesh, the better.
03:04The finer the result, the longer it takes and the more memory I'll need.
03:10The computer, so this is the standard invention grid. Here we can see the situation which
03:18The material will deform back to its original dimensions. The applied force is...
03:27two thousand nine hundred and forty-three neutral
03:44Now I will move on to the report that was generated in the invention.
04:10And that's all for now, don't forget to subscribe!
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04:24Thanks for watching the video.
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