| ▲ | ProllyInfamous 6 days ago | ||||||||||||||||
>Mostly just worse with respect to feature resolution. Inclusive to my injection-molded comment, but could be mitigated (e.g.) with an acetone bath (to "smooth" the layers/resolution). The stress fractures will most-definitely grow parallel to the layers, though... watch a Selectric's mechanism (rotational; linear; impact), in slow motion: https://www.youtube-nocookie.com/embed/RTtKaqIpOJc | |||||||||||||||||
| ▲ | Doxin 5 days ago | parent [-] | ||||||||||||||||
Ah yeah, you would probably get stress risers along the layer lines. Hadn't considered that failure mode. I'd still expect wear and "mushrooming" of the type to be a problem before stress fractures are though. Plastic is pretty soft and gummy when you get down to it. Interesting to see the timing on the mechanism too. It looks like it's already getting the rotation set up for the next character before the return stroke even happens. I suspect in normal use the ball would bounce off the page, avoiding smears. EDIT: worst case you could always make a silicone mold and cast the type ball in an engineering resin of one kind or another. That probably fares better over the long term than 3d printed plastic. | |||||||||||||||||
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