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@Anonymous wrote:

...in the design process?...

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I don't understand the question?  That is the process being described here.

I understand where you are going.. for the most part..

Its just not something that Inventor (nor any other CAD program AFAIK) does..

You've got your head too far in the "future" 

One uses tolerances to ensure proper fit in the end production product..

Not to adapt to the inconsistency of multiple prototype processes/machines..

But the abilty to say (for example) scale all holes by 1.2% and internal vertical surfaces by 2% inward,etc...because you know your 3d printer will always "flow" a bit would be interesting.. But even so.. hole to hole and location to location that scale factor might not be the same at all.. Even FDM machine to FDM machine will be different based on the machines physical capabilities..melt temperatures..materials used,etc..

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@Anonymous wrote:

Thanks for your input, but actually one not only use tolerances to define fittings (ISO H6/7,etc.) but indirectly also for defining machining/tooling decisions, so some tolerances wouldn´t be practical to achive with this tool, so you have to use another (like milling vs. spark erosion) - subsequently the tolerances chosen will have an effect on what process/machine/tool you will use to create the tool. So you can never achive a H7 fitting with a FFF 3D printer so it makes no sense to use this tolerance in combination with this process, and so on...

 

What you wrote at the end is exactly what I thought about, that the Software detects somehow the mating features of the parts and adapts it to the material/process to achieve overall dimensions, especially in the multi-solid to derived assembly workflow where it is quite unhandy to manage the offsets because all you get is a bunch of grounded parts in the iam.

 

Thanks, Mike!

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Yes.. In general you design the tolerances based on the product/parts needs and then you pick an appropriate way to produce those based on those stated tolerances..

So yes having super tight tolerances makes no sense if you are sending a part for 3d printing..

So far I've NEVER nor will I ever produce a special drawing for a machine/process specific prototype.. I will do the "production ready" drawing and all my prototype suppliers are well aware that we won't "ding" them if a 3d printed part or whatever doesn't meet the drawings "production ready" tolerances..

To go along with what Curtis wrote above.. Which is a great solution too..

I think if I had the need to have these differences and an actual model along with them I would probably use an ipart..Then one "member" would be "production ready" and another would be "prototype ready" where I could adjust dimensions to fit the manufacturing process be it 3d printers or whatever..

Or even just 2 drawings.. One uses the "parts tolerances" automatically and another where you simply enter another tolerance suited to the "less accurate" proto process..

To me what you are saying is interesting but I see that ability to be very complex to implement the "easy button" on that and really only be needed for a small audience.. 

There is the "inventor ideastation" where you could post your suggestion and see how it goes.. Being that 3d printing and other new technologies are becoming more mainstream it might be something for them to look at now..