Cordant Thiokol
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How solid rocket motors work
Details of various solid rocket motors
Comparison tables of various engines
Conceptually, solid rocket motors (or SRMs) are simple devices with very few moving parts. An electrical signal is sent to the igniter which creates hot gases which ignite the main propellant grain (see image below). The propellant contains both fuel and oxidizer; therefore these devices can operate in the vaccuum of space. Thrust is developed as the high thermal energy of the combustion gases is converted to kinetic energy in the exhaust. The simplicity of SRMs make them an attractive choice for many rocket propulsion applications. Because there are few structural components, the SRM is efficient in that the vast majority of its weight is actually usable propellant. SRMs can be ignited in a moments notice and don't require tanking of liquids prior to operation. On the downside, their efficiency (specific impulse) is generally lower than liquid systems, and they cannot be readily throttled. Once ignited, the motor will burn to extinction unless special provisions are included to terminate thrust during the middle of a firing.
Cordant Thiokol
Shuttle Reusable Solid Rocket Motor
STAR family
CASTOR family
Pratt & Whitney CSD
Orbus family
Alliant Techsystems
GEM strap-on booster
Orion booster
Sidewinder heatseeking missile motor
AMRAAM radar missile motor
Aerotech
Composite Propellant high-power model rocket motors
Estes
Black Powder model rocket motors
| Make | Model | Thrust | Weight | Propellant | Total Impulse | Burn time | Applications |
|---|---|---|---|---|---|---|---|
| Thiokol | SRSM | 3,300,000 lb | 1,300,000 lb | ammonium perchlorate/aluminum | 75 s | Shuttle SRB | |
| Castor IVA | Delta I, Atlas strap-on | ||||||
| Alliant | GEM | 112,241 lb | 28,592 lb | 88% HTPB | 7,090,000 lb-s | 55 s | Delta II strap-on |
| Make | Model | Thrust | Weight | Propellant | Total impulse | Burn time | Application |
|---|---|---|---|---|---|---|---|
| Thiokol | Castor 120 | 435,000 lb | 116,275 lb | HTPB | 29,900,000 lb-s | 81 s | Athena I, II first stage, Athena II second stage |
| Alliant | Orion 50S AL | 130,500 lb | 29,581 lb | HTPB | 7,893,000 lb-s | 72.4 s | Pegasus air-launch space booster |
| Make | Model | Thrust | Weight | Propellant | total impulse | Burn time | Applications |
|---|---|---|---|---|---|---|---|
| Thiokol | STAR 48A | 17,300 lb | 5674 lb | Ap / Al | 1,528,409 lb-s | 88 s | STS Payload Assist Module |
| Pratt | Orbus 6 | 23,800 lb | 6515 lb | 1,738,000 lb-s | 101 s | STS Inertial Upper Stage | |
| Orbus 21S | 59,460 lb | 22,703 lb | 6,190,000 lb-s | 138 s | INTELSAT-VI perigee kick |
| Make | Model | Weight | Propellant | Operating temps |
|---|---|---|---|---|
| Alliant | Sidewinder | 99 lb | RS HTPB | -65F to 160F |
| AMRAAM | 156 lb | -65F to 145F |
| Make | Model | Propellant | Thrust | Impulse | Weight | Propellant Weight | Burn time |
|---|---|---|---|---|---|---|---|
| Aerotech | F50-4T disposable | Blue Thunder composite | 50 N | 80 N-s | 83 g | 38.3 g | 1.6 s |
| H180W reloadable | White Lightning composite | 180 N | 230 N-s | 263.6 g | 123 g | 1.27 s | |
| Estes | 1/2A6-2 | Black powder | 6 N | 1.25 N-s | 2.6 g | .21 s | |
| D12-7 | 12 N | 17 N-s | 10.8 g | 1.42 s |
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