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Makerbot Thing-o-Matic 3D Printer Review
rsk points out this "review of the $1200 Makerbot Thing-o-Matic 3D printer. After a 16-hour self-assembly and a few weeks of use, a blown PSU was replaced with a higher powered PSU via a mod to the Thing-o-Matic. Video of the Thing-o-Matic printing out little solar panel mounts from Google Sketch-up included in the review. Final thoughts suggest that the Thing-o-Matic is not a great gift for non-engineers: 'You need a decent understanding of robotics, hardware, software, electronics and mechanics, need a little hand dexterity and a ton of patience.'"
Er, because it doesn't perform any milling? It performs deposition - adding of material. Milling is carving away - subtracting the material.
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So, why not call it a gnillim machine?
Keep on knockin'
https://robbiecrash.me
Did you see the first personal computers? They were useless toys compared to even the minicomputers of the day. Barely any RAM and no interactive display. Entering programs was laborious and error prone.
I was seriously considering picking one of these up as i tend to do a lot of low level fabrication (right up to casting noble and non-noble metals) and have yet to find a reasonable and quick method to fab plastics. However looking on the website and reading the review the quality of this product seems extremely questionable, not only did this one unit have 2 major issues within the first day of running (with a complex system like this not exactly a horrid start) but the company itself has a blog post on the front page about how its favorite customer service interaction was one in which the customer decided to fix all the problems on their unit themselves. So my first two impressions are that this unit will most likely be in a state of disrepair in between quick burts of usefulness? I'd rather just submit my renderings to online stores and pay the shipping, etc. simply for the lack of frustration. Now if they got these problems under control i'd have one tomorrow.
drunk chemists
I've had one of the Makerbot Cupcakes for quite a while. Great fun to build and operate -- if you are a tinkerer and enjoy making things work, and tweaking them until they work, and tuning them again when they quit working. If you don't happen to have the tinkerer gene, then they are not for you. I tell anyone that asks me about it: "It's not turnkey like a laser printer, it's a lifestyle choice."
Outrageous good fun, though, if you like that sort of thing. My last few prints: a pair of wheels for a robot, a bracket to mount an Android phone on a robot, and a cookie cutter to give as a gift. In between, my daughter has been printing doll house furniture.
After a 16-hour self-assembly
Now I'm impressed, I had no idea that it could self assemble, I expected that the guy who bought it would have to put it together.
I'm an American. I love this country and the freedoms that we used to have.
We initially inverted the head/model relationship because (at least when we were getting started) the extruder was a heavy, delicate bit of equipment, and the models being printed were very small and light. Moving the model means moving less mass. If you're printing in ABS, the material is viscous and sticky enough right out of the nozzle that it isn't perturbed by the platform motion. The disadvantage of this scheme is that it reduces your build area significantly, you need good model/platform adhesion, and tall models have a bit of an inverted pendulum effect. However, you don't have to worry about the head getting jammed or shaking apart as it slams back and forth at high speed.