Back in my Thing-O-Matic days, I made small chain mail sheets:
http://softsolder.com/2011/06/03/thing- ... chainmail/
The M2's big glass plate produces bigger and much better results:
http://softsolder.com/2014/11/27/3d-pri ... ail-again/
Pyramidal armor caps should repel Nerf darts:
http://softsolder.com/2014/12/04/3d-pri ... y-edition/
With armor, bigger is always better:
http://softsolder.com/2014/12/05/3d-pri ... -mm-sheet/
If that's not enough, join the sheets:
http://softsolder.com/2014/12/08/3d-pri ... ts-fabric/
A closeup of the joint between the two big sheets, which lie left & right of the joiner links that I'm gluing in place:
The OpenSCAD program splits the joiner links horizontally under the armor cap: position the two lower bars between the sheets, apply adhesive to the four pillars, then press the cap in place. The big sheets consist of interlocked links printed as one unit that require no gluing; split links join those sheets.
The program starts with the actual extruded thread size (I'm running 0.40 mm wide x 0.20 mm thick from a 0.35 mm nozzle), then computes the link dimensions as integer multiples of the thread size to make the infill fit perfectly. That means you can't use a model built for a different printer, because the sizes won't match.
Basically, you tell the program what your printer can do and how large a sheet you want, then it builds a model to match:
You can specify a diamond layout that rotates the links 45° with respect to the sheet sides:
You can set the armor button shape, although I think the 4-sided pyramid looks best:
Those big sheets pose a savage test of first-layer alignment, part adhesion, and bridging performance. The 9x13 button array rises from 514 bars on the platform, stretches 748 bridges to form the links, then builds 117 flat bridges to make the armor caps. Each 9x13 sheet requires a bit over nine hours to print.
But, y'know what? All those big sheets printed without incident and came off the platform ready to use: no cleanup or post-processing at all.
The M2 Just Works...
3D Printed Chain Mail Armor
Re: 3D Printed Chain Mail Armor
thats cool ed. i have seen a bunch of chain type models on thingiverse but never tried to print any of them
Re: 3D Printed Chain Mail Armor
Print with bronze-fill filament. . .
Very cool!
Any instructions on how to form a chain-mail shirt? It gets tricky where the sleeves connect to the body.
Very cool!
Any instructions on how to form a chain-mail shirt? It gets tricky where the sleeves connect to the body.
Re: 3D Printed Chain Mail Armor
You'd get better results by sewing separate armor patches onto a shirt, rather than trying to build a shirt directly from the sheets, due to the bulky buttons atop relatively inflexible links. The sheets have open links around the edges specifically for sewing them down, although special attachment links with small eyelets might be a better idea.Tim wrote:a chain-mail shirt?
Bronze filament sounds great: go for it!
Re: 3D Printed Chain Mail Armor
there is that new iron and stainless filament out or coming out. iron would be cool. let it sit outside and rust a bit.
Re: 3D Printed Chain Mail Armor
Judging from the comments, most of those designs seem to be very, very hard to print successfully, probably because their bar / link sizes interact badly with the extrusion width: they're designed to work on one specific printer and can't be adapted to another.jimc wrote:a bunch of chain type models on thingiverse
But, for sure, pulling a sheet of "cloth" off the platform always seems like magic and certainly shows what a 3D printer can do!
Re: 3D Printed Chain Mail Armor
Wow! Neat stuff Ed!