It is happening...3D printed turbos
#4
Boost Pope
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SLM (sometimes incorrectly lumped in with SLS), is a process which produces extremely high quality parts out of metal, with low porosity and excellent surface finish.
NASA, for instance, is using it to print rocket engine parts from nickle alloy: NASA Plans for 3-D Printing Rocket Engine Parts Could Boost Larger Manufacturing Trend [Video] - Scientific American
Further reading: https://thre3d.com/how-it-works/powd...er-melting-slm
Given that this is Koenigsegg, I'd be surprised if the turbine housing wasn't strong enough to balance the entire city of Ängelholm on top of it, with virtually no chance at all of it exploding and killing everyone while it's just innocently sitting there on the workbench.
#7
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Where the **** have I been? Last I knew 3D printing was for plastic parts only, or plastic prototypes of parts that would eventually be cast in metal after the prototype was proven to fit where it needed to be installed!
Keith
Keith
#9
Last time I spoke to a vendor, titanium SLM prints were running about $120 per cubic centimeter for a high res print. I'll have better estimates soon since I'm currently designing an engagement ring to be printed - the pitfalls of dating a nerdy designer (no diamonds, honey .. just SLM platinum).
-Zach
#12
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Not turbos but 3d printing. Cooolio.
DR ANTHONY ATALA - Making 3D Organs, Body Parts, Printing Technologies and More (Version 2) - YouTube
DR ANTHONY ATALA - Making 3D Organs, Body Parts, Printing Technologies and More (Version 2) - YouTube
Keith
#15
I've actually been working in Additive Manufacture (engineers can't take something called "3D printing" seriously) on the side for a little while now. Selective laser melt 3D printing is the future. The systems that are available today can print a near net 6AL-4V Ti part that is ~95% the strength of a forged part, then finish machine it without a human ever touching it. The technology exists today to print a set of connecting rods at the track overnight after blowing the motor up in practice, and assemble a motor in the morning before qualifying. This will revolutionize the way people buy spares or the way race teams operate. Imagine only having to bring a car and a magic box full of titanium powder to the track, yet still having your entire pile of spares at your fingertips.
There are still hurdles to clear, of course, but the Replicator in Captain Picard's Ready Room isn't that far off, and I think that ****'s cool.
There are still hurdles to clear, of course, but the Replicator in Captain Picard's Ready Room isn't that far off, and I think that ****'s cool.
#18
Boost Pope
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This company is working on the technology to 3d-print both leather and edible meat: http://modernmeadow.com/
Last edited by Joe Perez; 09-12-2014 at 10:24 AM.
#20
For the most part, laser melt technology uses a powder bed technique where a layer of powder is rolled over the top of a bed plate, and the laser melts the bits you want to keep, then the bed drops 1 layer thickness, and the process repeats. You can load effectively any plastic with any filler, liquid or solid like this. I used chopped glass fiber reinforced nylon for a project last year, but you could easily use much less mundane stuff. I saw a hybrid rocket thruster last week that a Penn St grad student designed that was printed from a carbon microsphere reinforced polyamide. It was strong enough to contain nitrous oxide vapor pressure, and temperature resistant enough not to eat itself through an 8 second continuous burn. Plus it was printed in 1 piece, and fit inside a 100mm cube, and weighed under 1kg all up.