Hi Bill - Thanks for sharing your experiences. If you wouldn't mind, I'd like to see your .ems design file in order to better answer some of your questions. You can email it to me at
[email protected].
I can comment on some of your questions without having your file. As to the processes used to manufacture the part - the software actually looks at the design and figures out, based on the geometry and specs, what is the most economical process. This is trickiest with parts which are 2D and/or simple 3D, where multiple processes are possible. More complex 3D and turned parts are easier, since they generally have to be made on a CNC mill or CNC turning center. Without having your file in front of me, it looks like a part which could be produced via a 2D process such as water jet cutting. However, to be produced that way, your specs would have to show you are willing to accept some draft angle on the edge, a looser Ra tolerance on the edge, and =/- .010" on your linear tolerances. If you made them anything tighter than that, the software will decide the part has to be CNC milled. You also couldn't have any 3D features added, such as hole chamfering, countersinking or any edge treatment. I'm suspecting that the software priced your design using a 3D process - I can confirm that if I can see the design file. It is possible to spec your job so it gets produced using the water jet, and then use Comments To Machinist to specify those features which need to be at a tighter tolerance. For example, on your part, the exterior shape may be acceptable with a +/- .010 tolerance, 10 degree draft angle and a 1000 Ra edge.....but maybe the three holes need to be +/- .003" from nominal. You would use Comments to Machinist (CTM) to point to the holes and indicate the required tolerance. The CTM won't get automatically priced by the software - we'll have to manually quote that - but you'll see the system price is much lower. Even with the manual quote features added, it should still be well below the system quote if it is interpreting the job as 3D rather than as basically sheet metal.
Also, as a general statement, quantity 1 is always higher than you might think, because all the fixed costs of the order are being applied to just 1 piece, and multiple additional parts can be produced with relatively little additional costs. That is the nature of manufacturing anything custom, and in the case of CNC, all the programming and setup cost is the same for quantity 1 or 100. Again, the automated price quoting makes it very easy to see the differences in pricing.
Thanks again for posting, Bill, and if you wouldn't mind sending along your file I can comment even more specifically.
Gary
