And by having access to our ebooks online or by storing it on your computer, you have convenient answers with Inventor Tutorials Stress Analysis.To get started finding Inventor Tutorials Stress Analysis, you are right to find our website which has a comprehensive collection of manuals listed.Our library is the biggest of these that have literally hundreds of thousands of different products represented.
If there is a survey it only takes 5 minutes, try any survey which works for you. Autodesk Inventor Stress Analysis Tutorial How To Access TheAuthor Thom Tremblay shows how to access the simulation tools, assign materials, define constraints, generate a mesh, and run your analysis. He also breaks down the particulars of analyzing parts and assemblies, such as adjusting constraint types and contact options. The course will not show how and why you perform stress analysis, but will provide a fundamental grasp of Inventors toolset. The units are based off your model and the significant digits. Having never attempted to use this much before, im not sure about the results that im getting. Basically without trying to sound dim What do the results actually mean. ![]() Having an understanding of constraints and loads is cruicial before attempting any sort of FEA. This is based on the geometry obviously and also the material( atomic structure and all its physical properties). The accuracey of the distribution also is dependant on mesh size. A mesh is applied to your part and the resolution of this mesh will determine how accurate the distribution is. If the part isnt correctly restrained or loaded the data will tell you nothing. Also these results are only to help focus your design and should not actually replace hand calculations and common sense. Autodesk Inventor Stress Analysis Tutorial Software Will HelpThe software will help optimize your design by pointing out theoretical weak spots. Understanding why this is so and what the effects are is cruicial. Not only for the part you are designing but the hardware you use, what its connected to etc. For instance in this case, the more rigid the plate was, the higher the stress concentration at fillets was. The more the plate was allowed to flex(max deformation) the lower the stress concentration was but in this case designing the bracket to handle the stresses rather than allow deflection was key. But I think the part i am really struggling with, is the colored graph up the side of the results. For instance on your second example the figure at the bottom of the graph is 0.019 and at the top is 1.834. Now if you had to explain to someone what these mean(simply) How would you do it Also i have noticed that yor results are in psi mine are in MPa is there some way i can change this. You can see Min and Max listed, those correlate to the min(.019) and max(1.834) values(both x 1e4psi or 18340psi). The colors on the bar give the values of each color region on the part. The distribution is based on the mesh created during analysis. The finer the mesh, the more accurate the distribution will be. I noticed that they used ANSYS for the exercise, so i have been trying to re-create there results or at least get close to them. Autodesk Inventor Stress Analysis Tutorial Full Version Of ANSYSI am assuming that thhis is only available in the full version of ANSYS and not the version that comes with Inventor Also is there anyway of testing a component to failiure. ![]() Remember to keep in mind these results are not to be used as a replacement for hand calculations, just as guidelines to help narrow a design.
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