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The solid rocket propellant [Name TBD] Deimos, previously called "Propellant XBlue Voltage" in development, was developed after the COVID-19 pandemic for Project Medusa with initial mixing and testing in April 2023 and finalized in September 2023.

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Image Added

History and Purpose

After the successful manufacturing and launch of Phoenix in January 2023, the team created goals for the next Spaceshot rocket, Project Medusa. One of the Medusa goals are to get halfway to space (~185,000 feet). ThereforeDue to the performance of Angry Goat in Project Phoenix, it was clear that a new propellant was necessary to fit the project's goals. Initial propellant formulas were developed in spring 2023, and characterization tests occurred throughout summer 2023. Lack of AP access slowed down the process in late summer -early fall 2023.Due to a lack of mixing space access as a result of the pandemic, the development of the propellant did not begin until November 2021, concluding with the final characterization fire in February 2022. First used in flight on the Phoenix Test Launch in May 20222023-mid winter 2024. Deimos is just barely pourable enough to be considered easily handled. Any more dense and it would not be pourable and would need to be packed.

Goals for this formula:

  • Higher packing density than Angry Goat, but not so dense it becomes difficult to pour like Cherry Limeade
  • Higher ISP than Angry Goat
  • Experiment with increased aluminum levels using 5-micron aluminum instead of 30-micron
  • Make a propellant that is easy to handle when mixing and handling to increase density
  • Become a platform for future propellant formulas to be used on a space shot attempt eventually

Changes from previous propellant (

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Angry Goat):

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  • Use of smaller AP particles than Angry Goat
  • Removed Magnesium
  • Removed Castor Oil and Triton X100, since the propellant was already viscous
  • Changed from 200-micron AP to 400-micron AP as the large particle in packing to increase pourability
  • Replaced HTPB with an added a new bonding agent to separate combine HTPB and Tepanol bonding agent
  • Added magnesium to reduce excessive slag and raise the combustion temperature due to high Al content

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  • Increase liquid content slightly to mitigate packed density

Formula

Ingredient% Mass
HTPB w/ CAO-5 & HX-75211.369%
IDP5.344%
PDMS.050%
5 µ Al Powder9%
200 µ Ammonium Perchlorate48.355%
90 µ Ammonium Perchlorate24.178%
MDI1.704%

Performance and Combustion Properties

Density: 0.059740 lbs/in^3
a: 0.020550 in/s
n: 0.376100
Typical ISP: 210s

Mixings

DateDesignationMotor(s)SiteResult
4/17/23Baja BlastCharacterization MotorsRT Lab
Density
Resulted in too low
, grains rejected
pressures
7/23/23
Blue Voltage
DeimosCharacterization MotorsRT Lab
Good density achieved with a modified procedure and formula1/17/22X-3
Acceptable grain; static fired and used for characterization
12/5/23DeimosCharacterization Motors
Firefly LabGood density achieved, virtually identical to the last mix2/1/22X-4Characterization MotorsFirefly LabGood density, textbook mix except mandrel got a bit stuck3/29/22BTL1Booster Test Launch SFFirefly LabEven better density due to a larger mixing bowl, tepanol may not have been mixed correctly4/26/22BTL2Booster Test Launch FlightFirefly LabFixed tepanol issue, very similar to static fire motor as designed6/15/22ML1Main Launch Static FireFirefly LabMuch denser than previous mixes, the booster mandrel could not be removed7/9/22BML1Booster Main Launch RemixFirefly LabMandrel still didn't come out, switching to an alternate design where the central core doesn't go all the way through10/8/22ML2Main Launch Static FireFirefly LabThe mandrel was successfully removed this time, density was acceptable11/21/22ML3Main Launch Flight17-101Wrong Value of MDI added, Scrapped mix12/4/22ML4Main Launch Flight17-101Good density
RT LabSame result as 7/23/23 mix







Static Fires & Flights

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Date

Propellant

Result
7/1/23Baja Blast

abraheim and alex sent messages

Lost Data & Leakage

7/15/23Baja Blast

alex sent message

5 Motors Fired; Slight Leakage & Low Pressures due to slag

7/29 

berkin and abraheim sent message

Slight Leakage but propellant was characterized

8/29Blue VoltageBurn time higher than predicted (2.5 >> 3.3) and thrust was low5/8/22BTL2Same as the static fire, same burn time, motor overperformed despite predictions7/24/22ML1 (Sustainer Only)CATO of motor from burn through on HEI; no data recovered11/11/22ML2Successful static fire of both motors, HEI burn through problem fixed, precautions taken to avoid "liftoff"1/21/23ML4Successful launch with both booster and sustainer performing as expected

 

 

 

 

 

5 test motors integrated: 2 successful fires, 1 failure (igniter lodged itself inside the small nozzle opening), 1 didn't ignite (igniter was well at the bottom but the motor, 1 not attempted (nozzle was smaller than the failed motor, so even higher risk of repeating failure). Unfortunately, we couldn't use this data due to our pressure numbers for static fire being lower than expected (to the point that it's an issue). Likely issue was due to our load cell because hydrosttic test was successful (so no leaks).

7/29Baja Blast

Two successful fires, but both motors had leaks, leading to substantial pressure loss. Location of leaks weren't clear until de-integration: the braces pushed the nozzle away from the carrier by a few thousandths, destroying the RTV seal.

Decisions after this static fire: create new formulation for next characterization fire, and remove converging section of nozzle (make it a graphite puck).

8/29Deimos

5 test motors prepared, all successfully fired. Pressures are within good operating range (Nozzle A - 1779 psi, Nozzle E - 1249 psi, Nozzle I - 1283 psi, Nozzle, N - 808 psi, Nozzle S - 684 psi 

Interesting observations about all motors:

  • minimal slag (not enough to make full rings on any motors)
  • nozzles weren't flush against forward retention ring (FRR) bolts before firing, but were flush after firing. All but nozzle E had O-rings pushed out around part of the nozzle that sheared
  • nozzles had signs of cracking around them, with nozzle N shattering entirely