When Your Smoke Bomb Kit is a Dud Try This

Sometimes, learning how to make a colored smoke bomb can be tricky. Even if you think you already know how! You can still have problems getting your colored smoke to burn bright and without sputtering even if you’re an old pro at making smoke bombs.

Many people get their smoke supplies from suppliers that have been offering organic powdered dye pre-mixed with the other necessary colored smoke chemicals for years. These premixed colored smoke components make it a lot faster and easier to make smoke grenades and smoke bombs. Typically you can buy a pound of the colored smoke mix, combine it with a pre-measured amount of potassium chlorate (KClO3), load it into a capped tube, insert the Visco fuse and voila! You have a homemade smoke bomb, ready to light and enjoy. Usually. sanaleo cbd

Occasionally I would have problems getting the colored smoke to light. When this problem became repetitious, I decided to roll up my sleeves and look into it. What I found was anything but earth shattering, but a good lesson in simple pyrotechnic detective work and it is exactly the same kind of problem diagnosis and solution process which anyone who makes fireworks will eventually run into.

The purpose of purchasing a colored smoke bomb kits is to make it simple and fast to make a smoke bomb. But suppliers perhaps have made it too simple, they may overlook the obvious. I was mixing the two-part colored smoke components (smoke mix and KClO3) correctly, according to the instructions my supplier provided but when I tried to light the newly assembled smoke bomb it wouldn’t burn or it would light and then sputter and fizz out.

Ideally when you light the smoke grenade it is supposed to smolder, not catch on fire. The key is having exactly the right ratio of the potassium chlorate oxidizer to smoke mix fuel. Wrong measurements in one direction and your mix will burn too fast and you won’t get the colored smoke you want, instead black, brown, or some other unimpressive colored smoke. Err in the opposite direction and your smoke mix will not ignite at all. Accurate measurements are critical.

I took my problem to my supplier and they jumped right in. They took samples from the batch of smoke mix that my kit had come from, identified by lot number, mixed it properly with the KClO3, and touched it off outside the office. They too, had some kind of a problem. Initial thought was that perhaps the lab which formulates their colored smoke mixes in large quantities, had changed the composition in some way. We called them up and they said nothing was different, but chemicals can vary from batch to batch and unless you do time consuming and expensive testing of each new batch you may never know.

We found that if we increased the amount of KClO3 added to the smoke mix, that we could get it to burn sometimes, the problem persisted. Then an idea pulled from the sky; one or both of the two-part smoke mixture must have gotten clumpy which happens when a powdered chemical gets a little bit of moisture in it thereby increasing the particle size. Upon close observation you could see that the KClO3 had indeed developed clumps. We sifted some of the blue smoke mix through a 30-mesh kitchen strainer and found the same thing. Theory confirmed! The thought that the powdered chemical composition in the kits was indeed subject to humidity and that this was affecting the burn was accurate.

When particle sizes are larger surface area is decreased. The pyrotechnic burn you need depends on many little particles of fuel and oxidizer being in close contact with each other. We were confident we had the mix proportions exactly right as long as the particle size was fine and free flowing. But with the humidity induced clumps the two powders now had decreased the interactive surface area which was no longer adequate for the recipe we were using. That’s why adding a little more potassium chlorate had solved the problem for some of the tests, the decreased surface area meant that if we changed the ratio of oxidizer to smoke fuel we could indeed get the smoke mix to light. There had to be a revision in the method of mixing and milling the chemicals and confirm the smoke fuel to KClO3 ratio.

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