SolidWorks Simulation- Mesh Controls
SolidWorks Simulation- Mesh Controls , SolidWorks Simulation- Mesh Controls
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SolidWorks Simulation- Shell Symmetry Fixture
SolidWorks Simulation- Shell Symmetry Fixture SolidWorks Simulation- Shell Symmetry Fixture
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SolidWorks Simulation- Advanced Restraints
SolidWorks Simulation- Advanced Restraints , SolidWorks Simulation- Advanced Restraints
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SolidWorks Simulation- Easy Results Plot Editing
SolidWorks Simulation- Easy Results Plot Editing SolidWorks Simulation- Easy Results Plot Editing
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SolidWorks Simulation- Flow Simulation Lids Video
SolidWorks Simulation- Flow Simulation Lids Video , SolidWorks Simulation- Flow Simulation Lids Video
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SolidWorks Simulation- Automatic Mixed Mesh
SolidWorks Simulation- Automatic Mixed Mesh , SolidWorks Simulation- Automatic Mixed Mesh
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What can SolidWorks SimulationXpress do?
SolidWorks SimulationXpress…it’s FREE! Use it!
(there’s a complimentary bonus link at the end)
What can SimulationXpress do?
General design screening and relative comparisons part design is good place to start. This is an entry level step into simulation based on the full SolidWorks Simulation product allowing industrial designers through engineers to have the ability to perform “Virtual Validation” even with the entry level version of SolidWorks Standard.SimulationXpress Core Capabilities
- Part analysis
- Stress analysis
- Optimization analysis with one variable and criterion
- Analysis management using Simulation study tree
- Isotropic materials
- Uniform pressure and force on faces
- Fixed restraints on faces
- Stress contour plot-equivalent (von Mises) stress
- Deformation plot
- Factor of safety calculation and plot
- Generate reports
- Publish SolidWorks eDrawings of analysis results
- Animate and save as AVI
While not everyone is devoted to being a Finite Element Analysis (FEA) analyst, with SimulationXpress you can develop skills to help optimize design concepts for performance, minimize product weight, and reduce costs of many designs.
And the bonus that you’ve been waiting for… FREE SolidWorks SimulationXpress Training is Available Online!
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SolidWorks Simulation, Tech Tips / Simulation Tech Tip: Shakers and Movers
You have created a Simulation study of a fairly large assembly.
It has a mixed mesh – Solid elements, also Shell elements, maybe also
some Beams. You are relying on the GLOBAL CONTACT – BONDED to tie
together all the mesh bodies of similar type. You spent maybe 40
minutes, at least, creating the BONDED contact conditions to tie the
dissimilar mesh elements together.
And now when you try to run the study, you get the failure message, “Zero or indefinite stiffness matrix”.
Ugh. That means that at least one component is not correctly
bonding to a neighbor, and so is free-floating. But which one? Since
the study won’t run, you can’t display the displacement plot, and see
which part(s) are flying off the screen. How to diagnose this – without
wasting the entire morning? There are two ways I approach solving the
problem, and they both use the study Property option, “Use Soft Springs
to Stabilize the Model”.
1: Moving
Sometimes you can simply turn ‘soft springs’ on, and run the study
again. About half the time, I find that the study will now run, (and
produce a warning message, that very large displacements were
detected). Tell it to continue running the study anyway, as-is, without
turning on the large-displacement flag. Then, when you plot the
Displacement results, you might very well be looking at an empty screen,
or you might see that one (or more) parts seem to be missing from the
plot. They are not missing – they simply went flying off the screen.
Set your Displacement scale factor to be wicked small, (think many
leading zeros), and then animate the displacement plot – and you’ll see
at the start of the animation, which parts are un-tethered, and in which
directions they are free to wander.
A cool and easy trick. Except that, I did say above, I use this
trick “about half the time”. Because the other half of the time, the
applied loads might act directly on the under-restrained parts, in the
same direction that they are free to move, and then the “Soft Springs”
do not supply enough stabilization. What to do then?
2: Shaking
The second approach is to Shake the assembly, instead of moving it.
Create a new Modal Study, (this will require the Simulation license to
be Simulation Professional or higher). Set the Modal Study Properties
to only ask for the lowest 2 mode-shapes, or maybe 3, but no more.
(this is a diagnosis, not a true study, so you want it to run fast).
Then you copy all your Restraints and Bonded conditions into the new
study.
Wait – I did NOT say to re-create all your Restraints and Bonded
contacts. I said “COPY” them. This is a “tip within the tip”. A lot
of people I encounter still don’t know you can do this. If you activate
your first, “real” study, you can then select the folder for your
Restraints, and DRAG that folder down to the row of tabs at the bottom
of your screen, and DROP it into your new Modal study. Done. So
creating this Modal study to diagnose your problem should take, like, 30
seconds tops. You do NOT have to copy over your system of loads –
just the restraints and bonding, because we are not going to ‘push’ your
assembly in any particular direction, we are instead going to vibrate
it in-place.
But, you DO still have to turn on the “Soft Springs” option to stabilize the model.
Ok, now you RUN the Modal study. Because the underlying equations
of the Modal study are being solved differently than a Static study, the
problem will generally solve O.K. even with under-supported parts.
And, when you activate the plot for the lowest 2 or 3 mode-shapes, each
one should show you some rigid-body motion, (and remember, it could also
be a rotation!), of the part or parts that are un-tethered. Animate
the model-shape plot, and it will be patently obvious which parts are
walking away, and in which directions.
Important caveat: The Modal Analysis method of diagnosing your
problem, will NOT allow you to create sliding or intermittent Contact
via the “No Penetration” gap elements. If your problem also has that
kind of Contact in it, you need to either ignore that contact for the
purpose of diagnosis, (which will too sloppy, and you’ll have to ask for
more Mode Shapes – ignore the responses you know are not ‘real’);
Or, you could replace the Bonded contact, with either an Elastic
Support, or a Spring Connector. With either of these, make the Normal
spring stiffness pretty high, but the tangential spring stiffness very
low – and you WILL have over-supported the selected faces a little bit.
But again, you’re just looking for which parts want to walk away, not
running the ‘real’ study yet, so we can throw a few darts. And if the
problem produces NO rigid-body modes when you’ve replaced the Gap
elements with springs, then you know for sure that the Contact
conditions are the real problem.
One of these two methods should solve the “Zero or Indefinite Matrix” problem for you, just about all the time.
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Three New SolidWorks Simulation Functions in 2013
Shell Edge to Beam Bonding
The
bonding of shell edges that belong to surface or sheet metal bodies to
beams, commonly used to simulate gusset plates connecting beams, is
supported through manual contact set definitions.To create a shell edge to beam bonded contact, in the Contact Sets PropertyManager, under Type, select Bonded. For Set 1, click Beams and select the beam from the graphics area. For Faces, Edges for Set 2, select the shell edge.
Render Shell Thickness
You can display the mesh and results of shells using a 3D representation of shall bodies. There is a new option to display the thickness of shells in result plots (stress, displacement, and strain) and when viewing the mesh.To view the results on a 3D representation of shell bodies, in a Stress Plot, Displacement Plat, or Strain Plot PropertyManager, Under Advanced Options, select Render shall thickness in 3D (slower).
The shell thickness displayed in the plots is the value defined in the Shell Definition PropertyManger. The orientation of thickness is displayed with relation to the midsurface of the shell, as defined by the offset value (Shell Definition PropertyManager).
For stress plots, results for the top and bottom shell faces are shown. Results are literally interpolated across the shell thickness. When probing stress plots, both the top and bottom shell values are displayed.
Reaction Forces for Beams
You can list the reaction forces and reaction moments at beam joints that have fixed translation or rotations.
In the Result Force PropertyManager, under Selection, select the beam joint to list the reaction forces.
Want to read more? Download the SolidWorks Simulation 2013 Datasheet.
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Where to find SolidWorks Simulation Tutorials
A recent sales promotion has helped many new customers obtain a license of SolidWorks Premium, which includes lots of great Add-in functionality beyond SolidWorks Standard and SolidWorks Professional. Perhaps the most popular is SolidWorks Simulation,
which provides full finite element analysis (FEA) capabilities for
linear static (“stress/strain”) simulation. Also, those of you on a
“floating” Network License may have access to a Simulation license. But
many of you might not know how or where to get started with Simulation.
Where are the SolidWorks Tutorials? Where is the Help?
Well, Step 0 is you need to make sure SolidWorks Premium is
installed! If it is not, then you won’t be able to do Step 1. If you
need help installing (or modifying your current installation), then
contact your CAD Administrator, or CAPINC customers on subscription can
of course contact our Technical Support staff.
Step 1: Turn on the “SolidWorks Simulation” Add-in. Launch SolidWorks and navigate to the Tools > Add-Ins… menu:
Check the left-hand box to turn on Simulation in this session.
Checking the right-hand box will turn it on in every session from now
on, which if you’re using a Network License may anger your coworkers who
might want access to the license that you’ll keep grabbing!
Step 2: Open a Part or Assembly file. You will not
see any Simulation user interface (icons or toolbars) unless a model
file is open. It can be a new empty file, as long as you have one open.
Step 3: Browse the pull-down menus (usually hidden beneath the SolidWorks logo) to Simulation > Help > Tutorials. You could also browse instead to Help > SolidWorks Simulation > Tutorials. As long as the Add-In is on, and a model file is open, you will be able to see both of these menu options.
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I recommend getting started with the Tutorials. Similar to SolidWorks CAD Tutorials, they divide the screen into two regions and give you easy click-by-click instructions for opening files and going through some steps to acquaint yourself with basic Simulation functionality. SolidWorks Premium includes Simulation Statics. Incidentally, SolidWorks Premium also includes Motion Simulation, but that’s for another post on another day…
After completing a few Tutorials, your next step is to try some of your own simple examples. Then if you decide you want to start using Simulation for your design work, you should attend a Simulation course at CAPINC. We offer a 3-day class for designers to become productive with SolidWorks Simulation. We begin with the essentials of FEA and end with the nonlinearities of large-displacement solutions! (It sounds complicated, but it’s just a check-box option!) The 3rd day of class covers the additional study types available with Simulation Professional (Thermal, Frequency, Buckling, Fatigue, and Drop Test).
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