March 2020 Meeting – *Cancelled*

by Andrew Cortopassi, Secretary, Reaction Research Society

The RRS executive council cancelled the March 13th meeting out of general concerns surrounding COVID-19.  The RRS plans to maintain our regular monthly meeting schedule and provide notice of meeting cancellations one at a time on RRS.ORG as time progresses.  The RRS monthly meetings have always been and shall always be on the 2nd Friday of each calendar month.  We will also continue to meet at the Ken Nakaoka Community Center at 7:30 pm unless prior change notification is posted on RRS.ORG.

The Ken Nakaoka Community Center has given the RRS notice that they will be closed for all events out to April 30, 2020, for concerns regarding COVID-19.  This will include our next monthly meeting, April 10th, 2020.  At this time, according to our next monthly meeting will be May 8th, 2020.

Given the closure of the Ken Nakaoka Community Center, the 2020 RRS symposium scheduled for April 18th is also cancelled.  Our symposium coordinator and society VP, Frank Miuccio, is working on rescheduling sometime in September or October with a new date to be announced as soon as we can.

Testing at the RRS MTA will continue during this time if this can be done in small groups.  All testing at the RRS MTA is done by appointment and scheduled with the RRS president which is the same policy we have always had.  Please contact the RRS president for questions about the use of the RRS MTA.

president@rrs.org

We wish everyone to be well as the world moves through these extraordinary challenges.  Be safe, be well, and look after each other.

MTA launch, 2020-03-01

by Dave Nordling, RRS.ORG


The RRS held a launch event on Sunday, March 1st, 2020, at the Mojave Test Area.  It was a brisk morning with steady winds that occasionally slowed enough for a safe launch.

This launch event was originally for a university static fire and a few member projects.  The university had to reschedule but we had sufficient interest from our own projects so we held the event.

View from behind the RRS MTA large test stand, 2020-03-01

The weather was a concern with passing storms and rain predicted earlier in the week.  But as often happens, the weather shifted for the better on launch day with winds staying low enough to launch most of our projects.

Wolfram’s booster sits on its stand in the Dosa Building

Wolfram has been working for a few years on his Gas Guzzler ramjet rocket. He is just now entering the first system flight tests to demonstrate the staging and recovery systems.  He filled his ramjet with water in place of the gasoline to have a representative weight.

The Gas GUzzler booster stage on the 1515 rails, loaded and ready
Both stages of the Gas Guzzler sit on the 1515 rails as Wolfram inspects the fit between them

Wolfram was able to load his booster on to the 1515 rails with good alignment. His upper stage had some alignment problems due to using a different prototype for this initial flight.  After some examinations on the pad, he pulled his rocket stages back to the Dosa building for internal adjustments to assure a clean fit between the booster and upper stage.

Kieth Yoerg’s rocket, Charlie Horse is made ready for flight from the 1010 rail
Charlie Horse rises on the black plume of a Smoky Sam high-powered motor.

The next launch was Keith Yoerg’s high powered rocket, Charlie Horse.  He used an I-350 Smoky Sam motor and had a dual-deployment system with a GPS tracker built in.  The flight was smooth off the rails but the trajectory data seemed to show a steady wind pushing west to east. He reached an apogee of around 4000 feet. Recovery wasn’t a problem as his rocket landed just a hundred yards east of the RRS MTA.

Wolfram stands with his ramjet upper stage and its broken cowl piece. Some rework will be required.

Wolfram returned his rocket to the pad but accidentally dropped the second stage breaking a piece of the ramjet plastic cowl on the concrete below.  With this significant disruption of the aerodynamic surface, he was forced to abort the flight and rework this part.  He was also going to check some of the other parts in his assembly for this long-awaited first flight.  It’s important to not rush a project and wait until all is ready for a successful flight.

Osvaldo and Larry check the payload packaging of the hybrid rocket one last time
The hybrid motor is installed and ready for today’s launch.

The next flight was to be the hybrid rocket that Larry, Osvaldo and I have been working. The Contrails H222 motor was safely loaded from last month and after some improvements to the vehicle body for better parachute recovery functions, we felt we were ready.

The winds were still favorable so we proceeded with clearing the area and making our electrical connections back to the old blockhouse.  With just a handful of people and the lightweight vehicle, the old blockhouse was sufficient for our operations that day.

The RRS nitrous oxide bottle ready to fill our hybrid rocket motor

The nitrous bottle was refilled from the prior week and the manifold was plumbed to the vehicle tank.  With the opening of the nitrous bottle, remote operations could begin.  The time of tanking the small 38mm H-motor tank was not precisely known, but was not expected to take very long given basic calculations of the available flow rate.  As expected, the tank volume primed within 15-20 seconds.  We waited a full minute as we were initially unsure of whether the full volume was filled with liquid.  After spotting a jet of liquid escaping from the vehicle body vent, we were assured that the hybrid motor was ready to be ignited. 

Osvaldo conducted the firing operation after a short five-count. The resistor and Pyrodex charge ignited after a slight delay for the resistor to heat up sufficiently. The motor seemed to reach full thrust quickly and leave the rail as expected from the thrust curves from this commercial motor.

Kieth Yoerg’s onboard camera takes a test photo of me loading the hybrid motor on the 1010 rail

The vehicle was spotted tumbling after leaving the rails leading us to believe the rocket was not properly balanced.  More detailed calculations would have been beneficial, but from initial estimates and the heavier recovery system in the extended rocket body, it was believed the rocket would be stable enough.

Examination of Osvaldo’s high speed camera footage from the hybrid flight revealed the reason for the vehicle tumbling.  Some of the frames show that the nitrous fill line remained attached to the rocket during launch and even after clearing the rails. The fill line did snap loose in the flight at some point, but it was supposed to completely sever at ignition.  This imparted a significant torque to the vehicle leading to a tumbling and short trajectory back to ground.

Note the nylon filling line is still attached as the rocket leaves the rails
Just a little later in the high speed footage the fill line and igniter cable start to come out, but the rocket is already knocked off course.
Both the fill line and cables are free of the rocket while the nitrous still flows over the fuel grain and the motor is lit.

Worse, in my rush to get the hybrid loaded on the rails and made ready for filling operations, I forgot to arm the recovery system.  This is a classic mistake and one that I could have easily avoided. 

At least, the other issues with the flight limited the distance the rocket travelled.  The rocket was recovered just north of the 1010 launch rail still within the bounds of the MTA.  The rocket landed on its nose breaking it and significant body tube damage was sustained. After disassembling the hybrid motor from the body, we opted to scrap the rocket body and rebuild a new one for the next flight.  The fill and fire operations were successful and the equipment we built worked fine.

The first hybrid rocket destroyed in flight. A new rocket build will start soon.
The spent hybrid fuel grain extracted from the Controls H222 motor tube.

The Contrails H222 motor parts survived well. We were able to easily remove the motor assembly and disassembled the parts for inspection. The graphite nozzle showed very little ablation and will be reused.  None of the parts had heat damage.  The fuel grain didn’t exhibit much ablation as compared to the other unburned grains we had. The burn duration in flight seemed to be similar to what is shown on the thrust curve, but this should be reviewed against the flight footage.

More review of the flight footage will be necessary to better understand how the hybrid motor operated. We are considering changing the ignition method to use an electric match and maybe a shape charge that would better ignite the hybrid motor.

We are considering building a static testing rig for the hybrid motor to verify some changes we intend to try with the ignition.  There will be more on this subject in later reports.

Larry holds his experimental solid motor, a simple end burner to test his mixture
Larry suspends his motor from an old steel rod from our modular rail system still under repair

Larry Hoffing had built a custom composite solid rocket motor using a spent casing from a commercial solid motor. This simple end-burner grain also had a custom-made nozzle.  Larry had suspended his experimental motor a length of metal piping threaded on our large adjustable box rails that is still undergoing refurbishment.

Still image from Larry’s motor firing, rapid overpressurization just after ignition

Unfortunately, Larry’s motor design was not successful and rapidly overpressurized scattering both end caps and propellant grain fragments across the desert floor.  No fires resulted from this static firing failure and no serious damage was done to nearby structures used for this demonstration.

Larry’s motor case ripped at both ends, back to the drawing board

The last launch attempt was Keith Yoerg’s smaller model rockets using the tiny B and C motors.  The winds became stronger as the day progressed and by that time sustained wind levels were too high for any launch particularly for such a small vehicle.  These rockets would be saved for a later event and Keith began examining his Charlie Horse rocket and its camera footage.

Kieth’s model rocket launcher being brought back to the Dosa Building as high winds prevented further launches that day.
Tiny desert flowers bloom in the spring at the RRS MTA

It was a good day for the RRS to have a launch event exclusively for our member projects. We plan to hold more of these events for both universities and our membership very soon.