extract nitrocelulose from ping pong balls

Quote: Originally posted by bearcreek

A mix of ping pong ball, KNO3, NH4NO3 & ammonium dichromate is better as far as power, is cheaper, etc.

You have luck with this mix in rocket propulsion? In what ratios? That is very interesting to me. I do a lot of small rockets and I am really into trying different propulsion compositions in my small scale design. I have had good luck using cellulose haxanitrate as a monopropellant but have never adulterated it. As far as detonation risk, I have never had trouble in my rockets, and I imagine as long as the scale is not ridiculous it is a pretty safe fuel.
I have achieved detonation of cellulose nitrate before, but I had to employ a fair sized TNP booster. Albeit, I am sure my density was not optimal.

Good luck friend, and be safe.

P.S. I camp at bearcreek every summer. In the cohutta wilderness preserve.

Simple synthesis of cellulose hexanitrate.

I am sure you could have found this by searching a bit, but I'm feeling generous. This is a fun synth that I loved to do when just starting out in the hobby.

*Safety*
This synthesis uses concentrated acid which can cause severe burns and blindness. It also produces some fumes. Mainly NO2 and some H2SO4 mist. These fumes will really hurt you and can kill you. Do not run this reaction indoors unless it is in a fume-hood, and make sure it's a windy day or use a fan for ventilation outside.

What you'll need:

Equipment:
1.) glass beaker at least 250ml
2.) glass stir rod
3.) non-open flame heat source
4.) Large glass bowl or beaker at least 500ml

Chemicals:
1.) 55ml 98% sulfuric acid
2.) 32grams of KNO₃, NaNO₃, or NH₄NO₃
3.) about 50grams of sodium bicarbonate
4.) 5grams of cotton balls (100% pure cotton)
5.) a couple liters of fresh (preferably distilled) water and some ice.

Procedure:

1.) Prepare your materials;

Sulfuric acid
- Assure that your H₂SO₄ is concentrated as much as it can be by heating it to >110C or until white fumes are emitted. Allow the sulfuric acid to cool to room temperature before proceeding

Nitrate salt
- Ammonium nitrate is the best nitrate salt to use because of its higher solubility, but the others (KNO₃, NaNO₃ will work fine. Make sure the nitrate salt of choice is dry and thoroughly sifted of all clumps. Weigh it accurately to 32 grams.

Cotton balls
- Take 5 grams of cotton balls (about 5 balls) and carefully unroll them into long thin sheets of cotton. Try and separate any clumps or knots in the fibers.

Bicarb wash
- Make a saturated solution of sodium bicarbonate (baking soda). At least 500ml or more.

2.) Preparation of the nitrating bath;

Begin adding you nitrate salt to the 55ml of room temperature sulfuric acid. Add the nitrate salt in 5grams increments and insure that it is fully dissolved after each addition by stirring with the glass stir rod. If you are using KNO₃ you will have some trouble getting the last few additions of the salt to dissolve. This can be solved by gently heating the acid to about 75-80C by placing the beaker with the acid in it into a boiling water bath during the additions of the KNO₃. After all the nitrate salt has been dissolved allow the acid/nitrate mix to cool to room temperature.

3.) Nitration of the cotton.

Add your cotton sheets, one at a time to the acid/nitrate salt mix. Using the stir rod, make sure that each piece gets thoroughly saturated and submerged in the nitration bath. Once all of the cotton is added, let the mix nitrate for no less than 12 hours. Using your glass stir rod, mix up and turn the cotton in the acid about every 2 hours.

4.) Rinsing and neutralization.

After 12 hours use you glass stir rod to press any acid out of the cotton and pour off the excess acid. You should now have a clump of acid soaked cellulose nitrate in your beaker. Add ~200ml of ice water to the beaker and swirl around. Then carefully pour off the water and leave the cotton behind. Repeat this rinse several time using cold water. The goal is to get as much of the acid off of the cotton as possible, so stir and press it with the stir rod while it's under the cold water. After several water rinses, place the nitrated cotton into the baking soda solution (Sodium Bicarbonate). It will bubble as any remaining acid is neutralized. Stir and separate the cotton in the baking soda water for several hours to assure all the acid is neutralized. Now drain the bicarbonate solution and thoroughly wash the cotton in hot water to remove any excess sodium bicarbonate. Spread out your cotton in a cool, dry place and let it dry thoroughly. It may take several days to really dry.

This cellulose nitrate will burn very fast, but if you want to assure that you have cellulose in its highest nitration state (hexanitrate) Just take the dry and ready cellulose nitrate and repeat the nitration procedure on it again with a fresh nitrating bath, as if it were just cotton. This will produce the best cellulose nitrate, it will rival the cellulose hexanitrate made with HNO₃ and H₂SO₄, albeit it's a lot slower and more work .

To make a gel, just drip some dry acetone onto the cellulose nitrate. Just enough to make a thick, clear gel. This can be pour casted into a rocket engine and allowed to dry for several days to a week. It can then be cored and fused if needed, depending on your rocket design

Good luck, and please be safe.


[Edited on 5-9-2011 by Bot0nist]

Quote: Originally posted by Bot0nist

2.) 32grams of KNO<sub>3</sub>, NaNO<sub>3</sub>, or NH<sub>4</sub>NO<sub>3</sub>

Quote: Originally posted by Rosco Bodine

The few times I have done a cellulose nitration was with mixed acids. I was thinking of the mixing difficulty for fibrous cotton versus a granular material, which caused my mention of microcrystalline cellulose as being a better substrate. Cotton is not easy to mix smoothly even with mixed acids.

That's not microcrystalline cellulose, that's wood powder, bleached sawdust. Avicel is a commercial product name for microcrystalline cellulose. The person
who patented the nitrated form, ordenblitz, is a member of this forum. You can look up the patent and see right that there "invented by ordenblitz"

http://www.sciencemadness.org/talk/viewthread.php?tid=1007&a...

Just kidding, the nitration of microcellulose has been done and reported earlier, but ordenblitz did apply for patent on several compositions using the material to advantage.

What is the hexanitrate of cellulose I never have learned about, and that is probably wrong. The trinitrate is the fully nitrated form of cellulose.

3HNO3+ C6H10O5 → C6H7(NO2)3O5 + 3H2O


[Edited on 7-9-2011 by Rosco Bodine]

Quote: Originally posted by Rosco Bodine

That's not microcrystalline cellulose, that's wood powder, bleached sawdust. Avicel is a commercial product name for microcrystalline cellulose. The person who patented the nitrated form, ordenblitz, is a member of this forum. You can look up the patent and see right that there "invented by ordenblitz" http://www.sciencemadness.org/talk/viewthread.php?tid=1007&a...

Quote: Originally posted by Rosco Bodine

If you want to make the material detonate, at particulate sizes of 100 mesh and moreso if mixed with a gritty oxidizer in small amount and compressed, it will initiate and detonate from shock, but there are better materials for such uses. If you are looking for a DDT sort of transition from ignition only then you are going to need an inconveniently large quantity of nitrocellulose and a lot of confinement to get it going high order, and something else that has a higher self acceleration would be way better for such use. The best nitrocellulose you can make really isn't like flashpowder, but has a progressive burning characteristic as its nature. You have to subject it to a pretty intense initiatory impulse to make it high order detonate. I really don't understand why anyone would want to make it detonate, when there are better alternative materials for that purpose. If novelty demonstration "flash paper" is the purpose, nitrating a paper towel or filter paper will give you what you want.

Quote: Originally posted by Rosco Bodine

Well yeah a lot of things compared to nitroglycerin are safer, dynamite for example is one of them even though the active ingredient is nitroglycerin. Anyway, wet guncotton was used for naval mines and torpedoes but it took a booster to set it off, IIRC. Nitrocellulose has more interest as a component of other things than as an explosive itself. It has value for use as smokeless powder more than anything else. If you consider the difficulty in processing the nitrocellulose compared with the strightforward manufacture of other materials for use as an explosive, its disadvantages for use by itself as an explosive are apparent. Basically it is an insensitive plastic material which only under very specific conditions can be detonated. It also has some stability issues which must be addressed and even then there is a shelf life for the stabilized material.

Quote: Originally posted by Rosco Bodine

You aren't making the distinction correctly for danger in manufacture of nitroglycerin versus nitrocellulose, or for the use of a dynamite compared with the use of nitrocellulose....nitroglycerin based dynamite wins that safety contest and probably wins on stability too. Nitroglycerin is safer, easier, and cheaper to manufacture commercially than nitrocellulose. But yeah given the easier processing if a person just insists that nitrocellulose is their preferred explosive, then it would make more sense to nitrate a particulate form of cellulose already in the mesh desired, to shortcut the otherwise tedious process. If you are looking for a practical explosive there are many better choices than nitrocellulose, just about anything else is better, less expensive and easier to make. Probably the closest thing to any widespread use of an explosive containing nitrated cellulose was blasting gelatine, or gelatine based ammonia dynamites, or similarly a cheaper nitrostarch based dynamite.

Quote: Originally posted by Rosco Bodine

Nitrating mixtures that won't really mix very well is trouble waiting to happen. Give it time.

Quote: Originally posted by Rosco Bodine

Be careful about generalizations with regards to nitrations because nitrations are specific to the thing being nitrated, as regards which nitrate is "best" or if any nitrate is best at all, as they are simply not interchangeable at will. There are specific combinations of acids, water content, temperature that definitely are governed by a kind of process curve and certain combinations are optimized while others simply are not optimized with regards to yield, safety, purity of product ect. This is nitration process algebra....for sure not simple arithmetic. Actually the physical chemistry aspect is operative for most or many chemical processes, and nitrations are especially affected in ways where subtle changes can have substantial effect on how a nitration proceeds.

There's a chart in Urbanski concerning the general progression of nitrates activity for nitrations when mixed with sulfuric acid but there are exceptions where some
particular thing being nitrated will be peculiar in somehow having a preference for a particular ion. All of these haven't been identified to my knowledge. My educated guess is some nitrations may work even better still with a mixed nitrate, like a double salt in combination with sulfuric acid. Nitrocellulose is reportedly a material that will nitrate more fully in the presence of magnesium nitrate, and I am pretty sure I have seen the same thing claimed for ammonium and sodium nitrate. Somebody mentioned RDX nitrolysis being improved by lithium nitrate. Copper nitrate is another one I recall being mentioned but I don't recall what was being nitrated. And I have seen other metallic ions claimed to have catalytic effect on aromatic nitrations. How this was discovered I don't know if it was deliberate or accidental. But it is true that different nitrates behave differently and are not just arbitrarily interchangeable. There is also the acid loss involved with nitrates which form acid sulfates, which must factor into the reaction, but going by that logic alone it would be counter intuitive to expect sodium nitrate to perform better, yet somehow it does work very well so something mysterious is occurring.

One thing I know for a fact is that nitrosylsulfuric acid is produced when sodium nitrate is added to sulfuric acid, and there is plenty of it remaining in the spent nitration mixture
before it is quenched. The nitrosylsulfuric acid may even be the actual nitrating agent rather than free nitric acid.

This was discussed awhile back, about six years ago in another thread
http://www.sciencemadness.org/talk/viewthread.php?tid=4457&a...

Page 46 from Urbanski vol. 1

http://www.sciencemadness.org/talk/files.php?pid=52553&a...

blinded.midi
http://www.sciencemadness.org/talk/files.php?pid=52975&a...

[Edited on 8-9-2011 by Rosco Bodine]

Quote: Originally posted by Bot0nist

I agree with Rosco on the practicality if cellulose nitrate as an explosive. Many other cheap alternatives exist that are both easy to obtain and easier to employ. When you think of ammonium nitrate and potassium chlorate based compositions and how easy they are to make cap sensitive, then using cellulose nitrate seems unnecessary. I have attempted detonating it only out of curiosity, but I had to keep scaling up my booster to an unpractical amount to get unadulterated, pressed cellulose nitrate to go full order.

Quote: Originally posted by Rosco Bodine

It was cotton and also filter paper I nitrated using mixed acid. The guncotton used long ago as an explosive was wet with water and compressed in metal cans. A booster was used to detonate the wet material. It was kept wet for safety and because of the deterioration of the inherently unstable nitrocellulose. If it was a practical explosive then it would not have been replaced quickly by other more stable explosives. Guncotton is a low density explosive and is obsolete on several counts. If you are convinced guncotton is just the thing for an explosive then it is a real mystery why. You are banging your head on a wall seeing practicality that isn't there. How come a thread about extracting pyroxlin from ping pong balls ostensibly for use as a binder in a "rocket project" has morphed into a thread about the dubious utility of guncotton for use as an explosive, none of this seems to be tracking very well. There seems to be an impracticality about that idea too. If you want a lot of detailed info on nitrocellulose http://books.google.com/books?id=n6aEAAAAIAAJ&printsec=f... http://books.google.com/books?id=3Y8PAQAAIAAJ&printsec=f...

Quote: Originally posted by Hennig Brand

I believe cellulose trinitrate and cellulose hexanitrate are basically the same thing. Cellulose is a polymer made up of the monomer glucose, so cellulose hexanitrate is just describing two cellulose trinitrate units. I think this is what is going on anyway. [Edited on 8-9-2011 by Hennig Brand]

Thanks! I needed clarity.

Quote: Originally posted by Rosco Bodine

The guncotton used long ago as an explosive was wet with water and compressed in metal cans. A booster was used to detonate the wet material. It was kept wet for safety and because of the deterioration of the inherently unstable nitrocellulose. If it was a practical explosive then it would not have been replaced quickly by other more stable explosives. Guncotton is a low density explosive and is obsolete on several counts. If you are convinced guncotton is just the thing for an explosive then it is a real mystery why. If you want a lot of detailed info on nitrocellulose http://books.google.com/books?id=n6aEAAAAIAAJ&printsec=f... http://books.google.com/books?id=3Y8PAQAAIAAJ&printsec=f...

Quote: Originally posted by Hennig Brand

This webpage is for aluminum powder. Notice that the second entry for aluminum about half way down the page is for coated aluminum powder, which has the same UN hazard rating as our 12.6% nitrocellulose with 25% or more water by weight. http://www.inchem.org/documents/icsc/icsc/eics0988.htm It would most likely be inconvenient but it looks like it could be shipped.

It is even worse than that I think. I think they mean 25% of the total weight is water. So 1 000 000 lbs NC and ~333 333 lbs of water. Yes, a very big box and a lot of stamps.

edit:
IIRC, the last time I checked a lot of the transport trailers around here were hauling about 40 tonnes to the load. So 16 loads should just about do it, if hauling 40 tonne loads. Unless I goofed somewhere.



[Edited on 9-9-2011 by Hennig Brand]

Quote: Originally posted by Hennig Brand

IIRC, the last time I checked a lot of the transport trailers around here were hauling about 40 tonnes to the load. So 16 loads should just about do it, if hauling 40 tonne loads. Unless I goofed somewhere.

Quote: Originally posted by otonel

"Ping-pong balls are made of nitrocellulose [pyroxylin] (cellulose dinitrate), specifically celluloid that consists of roughly 75% cellulose dinitrate and 25% camphor" When I read this I thinking if I can make a rocket motor using nitrocellulose from ping pong balls The problem in to find a solvent for camphor but not to disolve nitrocellulose I try alcohol and acetone to separate nc. without any result If you can help me with some suggestion I will be grateful

Quote: Originally posted by Hennig Brand

This webpage is for aluminum powder. Notice that the second entry for aluminum about half way down the page is for coated aluminum powder, which has the same UN hazard classification as our 12.6% nitrocellulose with 25% or more water by weight. http://www.inchem.org/documents/icsc/icsc/eics0988.htm and if you want a rocket engine, use a CO2 tube, and fill it with a mix of Zn and S with a ratio of: 2.04g Zn/1g S (launch it from a tube like an AT4) It would most likely be inconvenient but it looks like it could be shipped. [Edited on 9-9-2011 by Hennig Brand]

Celluloid is gone