Message from @Grumplebee
Discord ID: 434229084671836170
> Bully Hunters
What the fuck is this, first grade?
yes
https://twitter.com/SteelSeries/status/984554553889746944 buy steel series, they donate to hollywoods #metoo
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anyone have the invite for "Right-Wing Comfy Squads" discord?
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https://www.youtube.com/watch?v=bVgrrABuGcs
Cut his heart out with a spoon
Good for Japan.
Good for everyone but China, really.
Yup.
But I'm sure environmental groups (totally not funded by chineese business interests) are plotting their cockblock even now.
Still, I hope iron nitride magnets get developed to the point they can be made into a bulk material, rather than just a film.
Fun fact: Rare earth elements aren't very rare at all. It's just rare to find them in large deposits.
Yup.
That would be cool.
You heard of iron nitride magnets?
I try to keep abreast of stuff.
They're considerably stronger than neodynium, and require no rare earths.
That's crazy stuff.
The catch is making in them in a form that isn't just a thin film.
They had to use ion implantation to do it.
Hmm, maybe you could give it the alpha martensite microstructure AND the correct grain structure using cold isostatic pressing.
Anneal the porous sintered material, then put it through cold isostatic pressing to induce strain.
That's all above my pay grade
Hmm.
Yup, you'd definitely to seal it.
The problem would be getting just the right ratio, Fe16N2.
Develop a process where Fe16N2 is pressed together sintered in just the right mitrogen atmosphere to keep its ratio, coated in hexagonal boron nitride, then put through hot isostatic pressing.
Now you're just showing off.
Not really, I have no idea if this would work.
This process would have to be carefully balanced to have the nitrogen to get Fe16N2, and not let that nitrogen escape, while not forming the undesired Fe4N.
THEN you would have to anneal and cold forge it.
(You want TINY grains.)