Black powder (gunpowder) propellant Black powder (gunpowder) is composed of
charcoal (fuel),
potassium nitrate (oxidizer), and
sulfur (fuel and catalyst). It is one of the oldest
pyrotechnic compositions with application to rocketry. In modern times, black powder finds use in low-power model rockets (such as
Estes and Quest rockets), as it is cheap and fairly easy to produce. The fuel grain is typically a mixture of pressed fine powder (into a solid, hard slug), with a burn rate that is highly dependent upon exact composition and operating conditions. The
specific impulse of black powder is low, around . The grain is sensitive to fracture and, therefore, catastrophic failure. Black powder does not typically find use in motors above thrust.
Zinc–sulfur (ZS) propellants Composed of powdered
zinc metal and powdered sulfur (oxidizer), ZS or "micrograin" is another pressed propellant that does not find any practical application outside specialized amateur rocketry circles due to its poor performance (as most ZS burns outside the combustion chamber) and fast linear burn rates on the order of 2 m/s. ZS is most often employed as a novelty propellant as the rocket accelerates extremely quickly leaving a spectacular large orange fireball behind it.
Double-base (DB) propellants DB propellants are composed of two
monopropellant fuel components where one typically acts as a high-energy (yet unstable) monopropellant and the other acts as a lower-energy stabilizing (and gelling) monopropellant. In typical circumstances,
nitroglycerin is dissolved in a
nitrocellulose gel and solidified with additives. DB propellants are implemented in applications where minimal smoke is required yet a medium-high Isp of roughly is required. The addition of metal fuels (such as
aluminium) can increase performance to around , though
metal oxide nucleation in the exhaust can turn the smoke opaque.
Composite propellants A powdered oxidizer and powdered metal fuel are intimately mixed and immobilized with a rubbery binder (that also acts as a fuel). Composite propellants are often either
ammonium-nitrate-based (ANCP) or
ammonium-perchlorate-based (APCP). Ammonium nitrate composite propellant often uses
magnesium and/or
aluminium as fuel and delivers medium performance (Isp of about ) whereas
ammonium perchlorate composite propellant often uses aluminium fuel and delivers high performance: vacuum Isp up to with a single-piece nozzle or with a high-area-ratio telescoping nozzle. APCP used in the
space shuttle Solid Rocket Boosters consisted of ammonium perchlorate (oxidizer, 69.6% by weight), aluminium (fuel, 16%), iron oxide (a catalyst, 0.4%), polybutadiene
acrylonitrile (PBAN) polymer (a non-urethane rubber binder that held the mixture together and acted as secondary fuel, 12.04%), and an epoxy
curing agent (1.96%). It developed a specific impulse of 242 seconds (2.37 km/s) at sea level or 268 seconds (2.63 km/s) in a vacuum. The 2005–2009
Constellation Program was to use a similar PBAN-bound APCP. In 2009, a group succeeded in creating a propellant of
water and nanoaluminium (
ALICE).
"Candy" propellants In general,
rocket candy propellants are an oxidizer (typically potassium nitrate) and a sugar fuel (typically
dextrose,
sorbitol, or
sucrose) that are cast into shape by gently melting the propellant constituents together and pouring or packing the
amorphous colloid into a mold. Candy propellants generate a low-medium specific impulse of roughly and, thus, are used primarily by amateur and experimental rocketeers.
High-energy composite (HEC) propellants Typical HEC propellants start with a standard composite propellant mixture (such as APCP) and add a high-energy explosive to the mix. This extra component usually is in the form of small crystals of
RDX or
HMX, both of which have higher energy than ammonium perchlorate. Despite a modest increase in specific impulse, implementation is limited due to the increased hazards of the high-explosive additives.
Composite modified double base propellants Composite modified double base propellants start with a nitrocellulose/nitroglycerin double base propellant as a binder and add solids (typically
ammonium perchlorate (AP) and powdered
aluminium) normally used in composite propellants. The ammonium perchlorate makes up the oxygen deficit introduced by using
nitrocellulose, improving the overall specific impulse. The aluminium improves specific impulse as well as combustion stability. High performing propellants such as
NEPE-75 used to fuel the
Trident II D-5
SLBM replace most of the AP with
polyethylene glycol-bound
HMX, further increasing specific impulse. The mixing of composite and double base propellant ingredients has become so common as to blur the functional definition of double base propellants.
Minimum-signature (smokeless) propellants One of the most active areas of solid propellant research is the development of high-energy, minimum-signature propellant using C6H6N6(NO2)6
CL-20 (
China Lake compound #20), which has 14% higher energy per mass and 20% higher energy density than HMX. The new propellant has been successfully developed and tested in tactical rocket motors. The propellant is non-polluting: acid-free, solid particulates-free, and lead-free. It is also smokeless and has only a faint shock diamond pattern that is visible in the otherwise transparent exhaust. Without the bright flame and dense smoke trail produced by the burning of aluminized propellants, these smokeless propellants all but eliminate the risk of giving away the positions from which the missiles are fired. The new CL-20 propellant is shock-insensitive (hazard class 1.3) as opposed to current HMX smokeless propellants which are highly detonable (hazard class 1.1). CL-20 is considered a major breakthrough in solid rocket propellant technology but has yet to see widespread use because costs remain high. ==Hobby and amateur/model rocketry==