Scratch-
Hazard to Self
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NaK alloy
I am wanting to produce and ampoule some liquid NaK alloy. Heres what I'm planning on doing:
Need:
Argon (Welding shops)
Crucible stand
Oxygen/acetylene torch
Sodium hydroxide
Potassium hydroxide
Have:
Goggles
Gloves
Apron
Test tube
Metal spoon
Carbon electrodes (You can get them from carbon-zinc batteries)
AC adapter
Wire
Crucible (Or crack proof ceramic container)
Dish
Large airtight container with the top open (For doing things under argon)
Procedure:
1. Put on goggles, gloves and apron
2. Heat the top neck of a test tube and almost seal it
3. If step 2 doesn't work then get ampoules
4. Drill a small hole (1-2mm) in a metal spoon
5. Prepare the AC adapter and electrodes
6. Place crucible on its stand
7. Heat crucible gently to drive off moisture
8. Put sodium hydroxide in the crucible and heat gently to drive off moisture
9. Before hydroxide cools pour argon into crucible
10. Heat crucible until hydroxide melts
11. Heat electrodes to drive off moisture
12. Insert electrodes and apply electricity
13. Continue heating hydroxide until a generous amount of sodium forms
14. Immediately take out sodium and cool under argon, store in mineral oil
15. Repeat steps 7 to 15 for the potassium hydroxide
16. Heat the test tube to drive of moisture, put under argon
17. Heat crucible to drive off moisture
18. Put 60 percent potassium and 40 percent sodium in the crucible under argon
19. Heat until both are melted together well
20. Heat spoon to drive off moisture
21. Pour mixture through the spoon into the test tube until about half full
22. Put the rest of the mixture in a container under argon
23. Heat the neck of the test tube and close the end
24. Smooth out the neck of the test tube
25. Clean up apparatus
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neutrino
International Hazard
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If you’re using argon, make sure to have a steady stream to remove the oxygen formed. What are you using for a crucible? Sodium hydroxide is very
reactive and will promptly destroy glass, ceramic, and most metals (some are resistant, though).
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Scratch-
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One of those cheap $3 crucibles you always see in chem labs. Its ceramic, although I think its treated to be chemicaly resistant? I have some copper
roof flashing and I believe that Reverend Necroticus Rex used copper electrodes in a similar procedure to produce Na or K? Although, I want to avoid
impurities as much as possible (While being as cheap as I can  ).
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unionised
International Hazard
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"Large airtight container with the top open (For doing things under argon) "
Nice trick if you can do it.
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Organikum
resurrected
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Useful materials for the reaction vessel:
- nickel or nickel plated iron (best)
- iron (steel)
- copper
/ORG
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Scratch-
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I probably shouldn't try to use the torch under argon though, so I'll have to take the crucible out while doing that. I have small steel
cups and I can make copper crucibles probably, but I also have a Canadian coin thats from a year that it was suppost to be nickel. I might be able to
plate a good layer onto the steel.
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Marvin
National Hazard
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Making potassium metal is not required. Make twice the sodium you need, dry the potassium hydroxide (fuse and then crush) and then heat the sodium
with the pot hydroxide. The ratio and the degree of heating determine which alloy you get, then just decant the liquid alloy from the sodium when
cold, I can look this information up if you get this far.
Heat from under the metal container, and steel will survive ok for this, and provide a steady stream of argon directed at the cathode, this will work
fine.
The liquid alloy should only be made in very small amounts oweing to its tendecy to burst into flames as soon as it hits air. Its nowhere neer as
nice to handle as solid sodium or potassium.
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Scratch-
Hazard to Self
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Thanks for your help. I'm currently redoing the garage (where I do chemistry) so it may be awhile before I can post results. I just got a nickel
crucible too.
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Madandcrazy
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Whats the NaK alloy liquid for ?
Is it a easy alloy or a chemical substance ?
Needed materials for the vessel are all
materials they don`t react  with the
K/Na chemicals and they are heat resistant.
The gas needed that the metals not react with the air ?
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