Product category:
Simulation, modelling and validation software
News Release from: StampingSimulation.com | Subject: Forming simulation
Edited by the Engineeringtalk Editorial
Team on 31 August 2006
CAD models crucial in stamping
simulation
The quality of CAD modelling is important, according to StampingSimulation.com.
The most important aspect of any forming simulation is the CAD model and it all starts with the blank shape estimate In order to perform the blank shape estimate, a complete CAD model of the final part shape is required
This article was originally published on Engineeringtalk on 14 Aug 2006 at 8.00am (UK)
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How accurate is forming simulation? This is the question which most toolmakers ask when the use of forming simulation is suggested.
By complete we mean complete with surfaces and fillets (or rads).
In the earlier days of CAD design, wireframe data were used.
In fact, some large companies still use wireframe data today.
This is basically just two points joined by a line and the end result is a "spider web" or wire frame of the final part shape.
Of course, this type of data contains no surfaces or fillets or radii.
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Therefore in this form, the data cannot be used in a simulation.
In fact, in this form the data could not be used to generate NC cutter paths either.
If you or your customer are still using wireframe data to design press metal products, then a fair amount of work is required before it can be used in a simulation.
From the wire frame data, surfaces must be added.
Depending on the sise and complexity of the model, this can be a very tedious and time consuming task.
This can be done in a CAD package that is capable of creating surfaces like Catia, Rhinoceros or MasterCAM.
At this point, the result is usually a "square" model, ie a model without fillets or radii.
Since it now contains surface data, it is possible to perform a blank shape estimate, however, the result is obviously less accurate than a model with complete fillets.
So the next step is to add fillets at each of the "square" edges.
This also can be a very tedious and time consuming task again dependent on the complexity of the part design.
At this point, we are still dealing with surfaces and anyone who has had experience with filleting surfaces will understand the difficulties involved with manually filleting surface data.
It usually involves extending, trimming, sweeping, blending and cleaning up surfaces one by one until the final smooth filleted model is produced.
Because of this long, tedious procedure, models built from wire frame data usually contains many errors like overlapping surfaces, mismatched surface edges, untrimmed surfaces, missing entities etc Luckily, if you are still using wire frame data, StampingSimulation.com can provide all of the above as a service, if requested.
But even more fortunately, many of you use solid modelling CAD packages like Solidworks, Solidedge, Catia, Inventor, Unigraphics etc.
This means your data is basically fully surfaced from the second you start designing and filleting is as simple as point and click where all the blending and fillet intersections are taken care of by the solid modelling software.
Also, thickness is added at the click of a button, resulting in upper and lower tool surfaces.
So it is fair to say that a solid modelling package produces top notch CAD models, right? Yes and no.
Yes, while working within the software that it was created, the data is of course top notch.
But when it is exported to IGS, Step or some other common format, some translation problems may result.
Forming simulation software naturally reads the more common formats like IGS, so therefore it is usually necessary to work within a different format to that which the original model was created.
This means, when you upload a CAD file to StampingSimulation.com, we translate it to IGS before using it in the forming simulation software.
This means any problems we encounter in translation from the original format can be dealt with at our end instead of hassling you, the customer, for different formats.
So be assured, if you have a solid model of your part and it is complete with fillets, then there will be no hassles when you upload it to us.
StampingSimulation.com is an online die face engineering service, capable of designing complete die face data for your sheet metal stamping tool project.
Simply provide a CAD model of your part to StampingSimulation.com and the end result is a complete set of die face data, including a fully developed blank shape, binder surface and addendum surfaces.
In addition to this, the die face design is proven in the virtual environment, to show that the die face design has eliminated wrinkling, splitting and compensated for springback.
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