That’s nice, but it’s not very convincing. The top surface looks slightly over-extruded, which isn’t a problem when you print with infill, but can be an issue when you print something at 100% solid. Maybe that’s not a big deal. But look at those corners – they are both rounded and bowed. Print a cylinder that’s 2mm OD, and another that’s 80mm OD, and compare the error with the model. Print a hole that’s 2mm ID, and another that’s 80mm ID. Print a part that’s 15cm long and 2mm wide. Print a part with supports. Print an overhang without supports. In my experience, these machines do not hold the tolerances that the bigger machines do. That’s why they still make them and charge so much.
You don’t have to sell me on an UM2, I have one and love it. But I’ve had machining equipment, and done injection mold design, and worked with industrial 3D printers (FDM, SLS, PolyJet, etc). The UM2 is an awesome machine, but we need to be honest in this conversation.
I own an Ultimaker 2 and I love it. I had a steep learning curve with mine as it was the first 3D printer for me to own. It took me a couple months before I got mine operating smoothly but the support was amazing.
You can get reasonable predictable tolerances with these printers with some quality filament and taking some notes for each color. You are not going to get anything close to what a CNC or lathe could get you but you can often do what was already suggested and drill out holes or design custom support into your model. Modeling for 3D printing is different than modeling for machining because you need to account for printing limitations.
Feel free to send me a model of one you are having trouble with and I’d be glad to offer my opinions and print you a sample on my UM2 so you can see what the UM2 can do.
Best of luck on your quest and of course my vote is on the UM2
I have three Ultimaker 2 printers and I am ordering a 4th but I used my printers for end use parts production. The filament is varied and as cheap or expensive as you want it, and they are as reliable as you get in a home class printer. One of mine has worked around the clock for almost a year with only some clogged heads which were most likely may fault, as problems. The advantage the CubePro has which goes for any multi head printer is the ability to print support material. This allows you to sort out a design with out having to work out how to print best. This is best for prototypes and one off parts but is fart too cumbersome for anything more then that.
@chadkels I am an ultimaker fan boy (I have 2 UMOs) and think that you can get really good consistent output so that you will be sending less stuff out to the machine shop - but you would probably be sending the final versions out as there are always printer/user/plastic artefacts that means that the object is off - and the shrinkage depends on the design.
having said that i have heard that the cubepro (the latest version) is just plug and play - BECAUSE it is a closed ecosystem - i.e. their filament (with a new hot-end on each roll) and no tinkering.
So IMHO if you want NO tinkering I have heard that the top end cubepros are ok - the minute you might want to do something unusual you are into the Ultimakers. … if you really like getting onto understanding the machine - then the UMO is as accurate as the UM2 with a few more under the bonnet tricks.
multi head and support material is not a so good advantage, supports leave a trace, printing time is the twice, work on the print and maintenance is doubled
Thank you all for your excellent feedback. It seems as though the scales are tipping toward the UM2. I love hearing such definitive feedback. If anyone has more specifics on why the Cube Pro is bad, that would be awesome to hear as well! I really appreciate everyone taking the time to help me out with this. I am excited to become more involved with the 3D community. You all are fantastic people for such a warm welcome.
Dave, you should check out the Zortrax M200. IMO, the quality of prints my Zortrax is putting out rivals that of the FFF parts I buy from Quickparts.com. It is limited by ABS shrinkage issues for large size prints that are associated with non-heated enclosures but most parts come out pretty much perfect with no hassles. It uses a ball screw for the Z axis so Z dimensions come out +/- 0.005" and often better. XY tolerances depend more on the height and geometry of the part but they are generally between +/-0.005" to +/-0.020 for very large, tall parts.
I printed an enclosure yesterday with the lid designed with zero tolerance fit. The lid snapped in with a light press fit. We are going to buy a Zortrax to use for prototyping at the engineering firm I work for to save much of the $20k per year we spend having plastic prototypes fabricated. We have a Form1+ which has paid for itself many times over but the parts coming off of the Zortrax are so much stronger I think it will be our go-to printer now.
