10 Questions You Should to Know about sulfur hexafluoride for sale

13 May.,2024

 

What concentration of sulfur hexafluoride is safe to inhale

$\begingroup$

For more information, please visit sulfur hexafluoride for sale.

I'm afraid this answer doesn't address where you can get $\ce{SF6}$, as I don't know any suppliers myself (it would probably help to specify where you are, though). I just want to straighten out the safety details and make sure you (and anyone else who reads this in the future) know what you're doing. All chemistry experiments can take a turn for the worse if done without adequate preparation.

Pure sulfur hexafluoride is a rather chemically inert gas (unlike the related but very toxic sulfur tetrafluoride $\ce{SF4}$ and disulfur decafluoride $\ce{S2F10}$), and it can be safely handled in regular situations. Decomposition of $\ce{SF6}$ usually requires aggressive conditions, such as exposure to molten sodium metal at 200°C. There are some situations where $\ce{SF6}$ reacts at low temperatures, but that requires irradiation with deep-UV photons or direct contact with solvated electrons from alkali metals dissolved in ammonia. I don't suppose you'll have to worry about such situations. It also seems that $\ce{SF6}$ can decompose into a small amount of the other aforementioned toxic sulfur fluorides if it is exposed to electrical arcs, but since it is an electrically insulating gas, the electric fields required for arcing are even higher than in air, so this also shouldn't be a problem.

All in all, both pure $\ce{SF6}$ and helium are very unlikely to cause chemical damage to the body, even indirectly. However, that doesn't imply they are completely safe. Of course, they can still act as an asphyxiant simply by displacement of oxygen in the lungs (make sure to read this!). Be aware that the brain is incapable of directly measuring the oxygen content in your blood, and instead measures oxygenation rather indirectly, by the amount of carbon dioxide. It is possible to faint and even die from hypoxia without any warning. Additionally, since $\ce{SF6}$ is relatively heavy, it requires more effort from your diaphragm muscles to expel from your lungs, making $\ce{SF6}$ inhalation slightly more dangerous than helium.

As a safety measure, do not take consecutive breaths in the non-oxygenated gas and do not spend more than 5 seconds without inhaling air. While your lungs are devoid of oxygen, not only are they unable to transport oxygen into your blood, the lungs actually work in reverse and help expel oxygen from your blood. After performing the trick, take deep breaths in regular air for a minute or two before trying it again, to be sure all the previously inhaled $\ce{SF6}$ or helium has exited your lungs and your oxygen supply has returned to normal. Hyperventilating before or after inhaling $\ce{SF6}$/helium is likely a bad idea, as it further messes with the balance of oxygen and carbon dioxide in the blood. You should avoid any possibility of becoming light-headed and fainting, especially if you decide to do the trick multiple times. Also be mindful that the gasses can accumulate in poorly ventilated spaces, with $\ce{SF6}$ being a particular problem as it will tend to stay close to the ground and disperse with more difficulty.

If you're going through the trouble to get $\ce{SF6}$, you should do the floating aluminium boat display, too. It's pretty cool! Here's another video showing you can even pour the gas into the boat and make it sink.

Sulfur Hexaflouride - Powered by XMB 1.9.11

Author: Subject: Sulfur Hexaflouride Sulfur Hexaflouride


Sounds like an awesome gas:
http://www.youtube.com/watch?v=HIXEzj08MwE

five times heavier than air. Apparently it can be sythesized directly from sulfur and flourine which is very inconvienient in the home lab. Any one have ideas on making it?

Chemkid





I think you mean sulphur hexafluoride and fluorine!

Sulphur hexaflouride and flourine are used for baking...

But, yes, impressive demo, though you wouldn't get me breathing it in!

Regards, Xenoid

It's a pretty common demo to swallow some of the gas and let it lower your voice a few octaves, quite the opposite of helium. I don't really think standing one's head is necessary to remove it from your lungs.

I use SF6 for melting magnesium as a cover gas. Works nicely



Neither flask nor beaker.


"Kid, you don't even know just what you don't know. "
--The Dark Lord Sauron



good spellers drive me crazy (namely, because i am a terrible one)

@Xenoid: why wouldn't you inhale it? sure impurities in the gas may be a problem, but otherwise it appears to be a simple asphyxiate, just like helium.

@Fleaker: where did you get the gas?


Chemkid

[Edited on 2-11-2007 by chemkid]



Contact us to discuss your requirements of un 2203. Our experienced sales team can help you identify the options that best suit your needs.



Quote:Originally posted by chemkid

@Xenoid: why wouldn't you inhale it? sure impurities in the gas may be a problem, but otherwise it appears to be a simple asphyxiate, just like helium.

[Edited on 2-11-2007 by chemkid]

Well basically I just think it's a stupid idea! Helium is an inert, natural material so I might just be tempted. Sulphur hexaflUOride on the other hand is purely synthetic and presumably made from combination of the elements. What's the purity listed on the bottle 99.999%. What's the other .001%. It was made and measured by people, people make mistakes, all the time. Whose to say that 10 years down the track all the hexafluoride breathers don't keel over from some sort of fluorine induced lung cancer. It's a bit like the radon breathers and radium drinkers from the 1920's, hmmmm...... that was considered healthy! It is just unnecessary exposure to chemicals for entertainment purposes as far as I can see!

Sorry to be such a killjoy, .... now, back to my nitric acid making... where was I... Oh yes, breathing in fumes...!

Regards, Xenoid

Bah, chlorine doesn't even give you cancer. The strong oxidizers fuck you up right away, it's the mild ones like chromate you need to be scared of in the long term. (Fluorine's bone destroying habit notwithstanding, but if it were 10 ppm of HF in there, a lungful wouldn't be enough to cause that kind of trouble. After all, if this were the case, you would instead cough it up immediately due to the burning sensation, surviving with perhaps a burnt mouth and trachea.) If the first 100 ml of gas doesn't choke you, the other 1400 ml won't. (What's lung capacity, 3-4 l or so? Obviously you don't want to inhale that much SF6 pure, else you'll go unconcious for a spell.)

Speaking of asphyxiation, it's a myth that SF6 "sits in your lungs". The lungs are a very turbulent place and any seperate gasses present are soon mixed intimately. If you feel yourself going woozy, take a deep breath. If you go unconcious, the brain stem will maintain respiration. It's quite hard to die of unconfined gas.

Tim




Electronic Design, from Concept to Layout.
Need engineering assistance? Drop me a message!

Seven Transistor Labs LLC http://seventransistorlabs.com/ Electronic Design, from Concept to Layout.Need engineering assistance? Drop me a message!



Industrial SF6 is very pure and completely suitable for the breathing demo- the quality specifications include a test that mice must be alive and show no ill symptoms after 24 hours in an atmosphere of 80% of the produced SF6 and 20% O2.
There can be a dangerous contaminant in SF6 when not purified properly, namely S2F10, which is very similar to phosgene in its toxicity and ability to cause pulmonary edema after a few hours delay. The mice test is there specifically to make absolutely sure this impurity is absent, in addition to the other tests like GC, chemical analysis etc (S2F10 gives fluoride ions upon hydrolysis, while SF6 doesnt hydrolyse at all)...

If prepared at home, it would be very difficult to ensure the complete absence of this impurity.
Besides, I know of no methods other than S and F2 to prepare SF6.



www.versuchschemie.de
Das aktivste deutsche Chemieforum!

Das aktivste deutsche Chemieforum!



I have wondered if it would be possible to electrolyze a bath of HF + KHF2, or any other fused fluoride bath, with an anode made of a high sulfur alloy or composite, or sulfur doped with just enough something to make it conductive, to produce SF6. This would ultimately result in the union of elemental fluorine and sulfur. The normal scrubbing procedures would be done to remove S2F10 or SF4. The other constituent(s) of the anode would just dissolve into the electrolyte to be electrolyzed with the rest.



The mind cannot decide the truth; it can only find the truth.



It's available from a variety of gas suppliers. Mine was from Praxair, but there are various issues to getting it from them without a business license. It is considered a hazmat item, even thought it is an extremely inert gas. Actually, I think I asked the sales rep that, and she said something to the effect that it's a greenhouse gas. I certainly see a very heavy gas like that going high high up into the stratosphere...


I think an 80lbs cylinder was ~800USD.


Edit, I think I overpaid : http://cgi.ebay.com/Sulfur-Hexafluoride-Large-Cylinder-w-Reg...

that seller also has a tank of D2O!

[Edited on 3-11-2007 by Fleaker]



Neither flask nor beaker.


"Kid, you don't even know just what you don't know. "
--The Dark Lord Sauron



Well, actually, once it is diluted it will go everywhere. Fractionation of gas in the atmosphere is a non-event except in so fas as light stuff gets lost. And once up there it would get hit by UV and basically be as good as any CFC ever was. But I agree with you that calling it a 'hazmat' item is just plain stupid.

How many people are going to buy sulfur hexafluoride to the point where it becomes any significant greenhouse gas. I mean they sell dry ice no hazmat crap, it turns into a green house gas. Maybe vinegar, baking soda, calcium carbonate, HCl and the hundreds of other ways to make evil greenhouse gasses should be hazmat items too! I mean, i am environmentally friendly, i recycle compulsively, i print double sided etc etc. But some one is really worried that the 2000mL of sulfur hexafluoride i release into the atmosphere is going to be the final dose that does earth in?! Anyway rant over.

perhaps the friendly gas supplier will sell me some. Sadly, the one around here is not very friendly and refuses to put liquid nitrogen in a glass vacuum thermos bottle. However, maybe the ventilation system testers are nicer and would give me some sulfur hexafluoride. Apparently it is commonly used for ventilation testing which may make things easier.

Chemkid





Comparing CO2 with SF6 is a stupid point: SF6 is a stronger greenhouse gas than CO2 by many orders of magnitude.

When scientists talk about terraforming Mars, they are referring to mining sulfur and fluoride sources and building SF6 generators.

Tim




Electronic Design, from Concept to Layout.
Need engineering assistance? Drop me a message!

Seven Transistor Labs LLC http://seventransistorlabs.com/ Electronic Design, from Concept to Layout.Need engineering assistance? Drop me a message!



It is true that SF6 is a stronger greenhouse gas than CO2 however CO2 is produced/released in significantly more abundance and the individual possession of small quantities of SF2 or CO2 is negligible in comparison to the tremendous amounts of CO2 produced by industry of today.

Chemkid





And at the risk of incurring the mods wrath, we are severly fucking up the Earth.

We should not be producing anywhere as much CO2 as we do.

But you could not carry, even with a ute, hell even with a small truck, enough CO2 to do as much damage as 1kg of SF6. Not that it matters, because we can and do make this much CO2 over time with our electrical devices and our vehicles.

Antwain, I feel it is necessary to address your comment on SF6 acting like a CFC in the atmosphere. The CCl2F-Cl bond energy is 73 kcal/mole where as the S-F bond energy is something like 95 kcal/mole. As you can see, SF6 is unlikely to act as a catalyst in ozone destruction.

On that note, you seem to be confused, referring to CFCs as greenhouse gases. CFCs act as a chlorine radical donor which catalytically converts ozone to oxygen, subsequently depleting the ozone layer that protects us from harmful radiation. As you can see from the above bond energy, fluorine radicals are unlikely to be produced in any large quantities.

As far as making SF6, I think it would be quite respectable of a mad scientist to make fluorine gas and react it with sulfur. It sounds like the electrolysis method of F2 generation wouldn’t be too difficult to pull off. As a plus, when you breath the SF6 in front of your friends, you can tell them in a demonic voice that you made it with a gas that’s so reactive it burns water.

It is true that SF6 is not a threat to the ozone layer. However while SF6 is the strongest known greenhouse gas, something like 22 to 24 thousand times greaer than CO2 weight for weight, the CFCs are also GHGs although less so because of both the absorption characteristics and their shorter lifetimes in the atmosphere. CFCs and perfluorocarbons are rated at a thousand to 10 thousand times great greenhouse effect than CO2, depending on the exact compound.

I find it extremely unlikely that fluorine radicals would NOT be produced. The stuff the comes in at the top of the atmosphere includes X-rays. But lets say I am wrong about that, and that it doesn't react at all, even up there. That leads to the second part of the catch 22.

There is another factor, in the greenhouse issue.... I can't remember the exact figures, so this may be off by several magnitudes, but methane is comparable to CFCs as a greenhouse gas. The difference is its half-life in the stratosphere. methane is oxidised very quickly, while CFCs persist. If SF6 does not attack the ozone layer by being split by hv then presumably it persists too, since it will not react from a strictly chemico-kinetic point of view due to that wonderful coordinative saturation.

The ionizing radiation preferentially reacts with oxygen, nitrogen, etc. With SF6 in the ppt range, the amount of fluorine radicals produced is vanishingly small. The lifetime of SF6 in the atmosphere has been studied and is partly why its greenhouse factor is so large.

I would suppose, when an SF6 does decompose, it soon shatters into smaller bits, the sulfur center reacting with more common hydroxyl radicals, forming sulfate, which contributes to everyday aerosol. The fluorine, on the other hand, could form, say, oxygen fluoride species first, soon followed by HF, which is removed from the system in rainwater.

Tim




Electronic Design, from Concept to Layout.
Need engineering assistance? Drop me a message!

Seven Transistor Labs LLC http://seventransistorlabs.com/ Electronic Design, from Concept to Layout.Need engineering assistance? Drop me a message!



Why do environmental issues always incite intense argument? I think SF6 should be regulated to a certain extent but not so much as to call it a "hazmat item" or to prevent individuals from purchasing it. Labeling it as such leads the ignorant masses to believe that it poses a direct and imminent threat when, in reality, it's barely more "toxic" than the elemental noble gases.

That Al foil boat thing was the shit. I would love to have a cylinder of that stuff to play with.

[Edited on 28-11-2007 by MagicJigPipe]



"There must be no barriers to freedom of inquiry ... There is no place for dogma in science. The scientist is free, and must be free to ask any question, to doubt any assertion, to seek for any evidence, to correct any errors. ... We know that the only way to avoid error is to detect it and that the only way to detect it is to be free to inquire. And we know that as long as men are free to ask what they must, free to say what they think, free to think what they will, freedom can never be lost, and science can never regress." -J. Robert Oppenheimer

Want more information on Nf3 Specialty Gas? Feel free to contact us.