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The creator of this instructable is not personally responsible for any injury resulting from the creation or use of this rocket candy.
All safety precautions should be followed including those of the manufacturers of the rockets themselves. Take care, while fun, rockets are still dangerous.
This specific type of rocket candy calls for 3 ingredients. And two types of fuel: Sucrose table sugar , and Fructose Corn Syrup.
Ideally the oxidizer and fuel should be in a ratio of around KNO3 can be found in commercial stump remover which can be purchased at most hardware stores or online.
Weigh out the ingredients on the scale. Add your ingredients to the beaker. Stir continuously until the mixture is a uniform consistency.
Then stir occasionally so that the sugar doesn't burn. Once the mixture has thinned out a little after about mins increase the heat to F.
Stir more often than before. Once the mixture stops bubbling and has turned a caramel color after about mins turn off the hot plate and remove the beaker from the heat.
Pour your mixture onto wax paper and let cool. Once the fuel has cooled and hardened break it into smaller pieces. You will notice the fuel has lost some weight due to water boiling off.
Using a mortar and pestle, grind your fuel into a powder. This step is important. The fuel must have a small grain size so that it can be properly mixed and packed.
This increases the burn rate of your fuel turning it from a smoke bomb into a rocket engine. The easiest metal oxide to use is Iron oxide rust.
There are plenty of great tutorials on Instructables. It follow the instructions and add the rust to your fuel and mix. Take the motor casing from a used rocket motor and fill it with your fuel.
I used the B size rocket motors which take around 6g of fuel to fill. While packing you should periodically pack down the fuel in the motor.
Do this by sliding the dowel rod into the open end and tapping it down with a hammer. Once the motors are packed, use a drill to drill a nozzle down the center of the motor.
You are now finished. Put your motor into an appropriate size rocket, install an igniter, and fire it off. Aside from the legal issues this project would get you locked up in the UK , the recommended method is highly dangerous!
Grinding the finished fuel and using a power drill to form the combustion chamber could both very easily generate enough heat to ignite the fuel.
I know of at least one case where somebody lost fingerx whilst grinding a mixture like this in a pestle and mortad.
Reply 1 year ago. Question 1 year ago. Rocket Candy , or R-Candy , is a type of rocket propellant for model rockets made with sugar as a fuel, and containing an oxidizer.
The propellant can be divided into three groups of components: the fuel, the oxidizer, and the additive s. In the past, sucrose was most commonly used as fuel.
Modern formulations most commonly use sorbitol for its ease of production. The most common oxidizer is potassium nitrate KNO 3.
Potassium nitrate is most commonly found in household stump remover. Additives can be many different substances, and either act as catalysts or enhance the aesthetics of the liftoff or flight.
A traditional sugar propellant formulation is typically prepared in a oxidizer to fuel ratio. There are many different methods for preparation of a sugar-based rocket propellant.
Dry compression does not require heating, only the grinding of the components and then packing into the motor.
However, this method is not recommended for serious experimenting. The specific impulse, total impulse, and thrust are generally lower for the same amount of fuel than other composite model rocket fuels, but rocket candy is significantly cheaper.
In the United States, rocket candy motors are legal to make, but illegal to transport without a low explosives users permit. Since they count as amateur motors , they are typically launched at sanctioned Tripoli Rocketry Association research launches which require users to hold a Tripoli Rocketry Association high power level 2 certification.
Users may also launch using these motors by applying for an FAA flight waiver. Similar laws apply in Canada, the UK, and Australia.
Rocket candy can be broken down into three major groups of components: fuels , oxidizers , and additives.
The fuel is the substance that burns, releasing rapidly expanding gases that provide thrust as they exit the nozzle.
The oxidizer provides oxygen, which is required for the burning process. The additives can be catalysts, to speed up or make the burning more efficient.
However, some additives are more aesthetic, and can add sparks and flames to liftoff, or add smoke for ease of following the rocket in the air.
Many different sugars can be used as the fuel for rocket candy, including glucose, fructose, and sucrose; however, sucrose is the most common.
Sorbitol , a sugar alcohol commonly used as a sweetener in food, produces a less brittle propellant with a slower burn rate. This reduces the risk of cracking propellant grains.
Sugars that only have alcohol groups, like sorbitol, are much less prone to this decomposition. Some other commonly used sugars include erythritol , xylitol , lactitol , maltitol , or mannitol.
The oxidizer most often used in the preparation of sugar motors is potassium nitrate KNO 3. Other oxidizers can be used as well, such as sodium and calcium nitrates as well as mixtures of sodium and potassium nitrate.
Other rarely used oxidizers are ammonium and potassium perchlorate. Two main issues need to be addressed with respect to the oxidizer if one is using potassium nitrate.
The most important issue is the purity of the material. If a purchased material does not perform satisfactorily it may be necessary to recrystallize the KNO 3.
The second important issue with respect to the oxidizer portion of a propellant is its particle size. Rock-tumblers can also be used to mill into a fine grained well mixed powder.
Additives are often added to rocket propellants to modify their burn properties. Such additives may be used to increase or decrease the burn rate of the propellant.
Some are used to alter the color of the flame or smoke produced. They can also be used to modify a certain physical property of the propellant itself, such as plasticizers or surfactants to facilitate the casting of the formulation.
There are many types of experimental additives; the ones listed here are only the most commonly used.
Metal oxides have been found to increase the burn rate of sugar propellants. Such additives have been found to function best at levels from 1 to 5 percent.
Red iron oxide is used most often as it is somewhat easier to obtain than the yellow , brown, or black versions. Brown iron oxide exhibits unusual burn rate acceleration properties under pressure.
Carbon in the form of charcoal, carbon black, graphite, etc. Most often, however, a small amount of carbon is used as an opacifier, making a visible smoke trail.
The carbon acts as a heat sink, keeping a portion of the heat of combustion located in the propellant rather than having it transferred quickly to the motor casing.
If metallic fuels such as aluminum or magnesium are used in a sugar formulation, a danger exists if traces of acids are found in the oxidizer.
Acidic materials can react readily with the metal, producing hydrogen and heat, a dangerous combination.