Almost all spacecraft (including satellites) use hydrazine (MMH, UDMH or Aerozine 50) for rotating around itself to keep pointing in the right direction (see attitude control, reaction control system).
When used as a bi-propellant, hydrazine is usually combined with N2O4, which is also super toxic.
It is not just the military that uses these things. Everyone uses it because it is the best performing high thrust (not ion engine) non-cryogenic (storable) propellant. It being hypergolic (self igniting) is a bonus for reliability.
The military actually switched to solids for ICBMs and SLBMs.
The F-16 has a hydrazine APU, and I would not be surprised if the F-35 does the same thing.
> The F-16 has a hydrazine APU, and I would not be surprised if the F-35 does the same thing.
The F-16 has an EPU not an APU, i.e. an Emergency Power Unit vs an Axillary Power Unit. Lacking an APU is an exception when it comes to jet aircraft and necessitates a few changes. Relevant here is that an APU can provide power in an emergency, so the role is played by the hydrazine powered EPU for the F-16.
This makes hydrazine somewhat more of a rational choice for something you expect to use rarely. If it were expected to be frequently used then it would have to be frequently refilled and that would necessitate all ground crew wearing the full body hazmat suits you see in the photo for the X-37b here as well as many other complex safety precautions.
The F-35 has a conventionally jet fuelled APU[0] so it has no need for an EPU or hydrazine.
Interestingly Concord didn't have space for an APU (due to the shape of the empennage and placement of a rear fuel tank). I have seen pictures of a hydrazine powered EPU on one of the prototypes, but this was never going to make it into service as certifying carrying something as toxic as hydrazine - even back then - would be nigh on impossible. This is the question that starts the most epic thread about Concord[1] (warning - you may get sucked into reading all 103 pages!)
The EPU on the F-16 is actually quite interesting itself and is a good fit for what is needed with 70s technology.
Redundant systems are normal on aircraft and the F-16 has a particular need for hydraulic and electrical power as its inherently unstable airframe needs various onboard systems to keep it stable and flyable.
If the main generator disconnects from the bus or the hydraulic pressure drops[0] the EPU will automatically operate to provide electrical and hydraulic power. It can run from engine bleed air, but if the (single) engine has failed then pressure will be provided from the hydrazine system.
It achieves this using a 70% solution of hydrazine in water as a monopropellant, which is decomposed over an iridium catalyst. The water helps keep it stable, and cools the catalyst when it boils, keeping it around 850C and the high pressure gasses are fed into the EPU.
This has the advantage of being light (25L of hydrazine and simple as only a single liquid), reliable and fast acting (~2s to max power).
pprune is the goto site whenever anything interesting happens in aviation (and the pro's there are very aware that it's where the journalists will start looking when there's an incident).
I suspect the F-35 does not use hypergolics, because they land on aircraft carriers. There's only so much risk you can tolerate on such a large, high-value asset. Nukes, sure. Hydrazine? Do we absolutely have to? If not, take a pass.
Rocket fuel typically uses either monomethylhydrazine (MMH) or unsymmetrical dimetehalhydrazine (UDMH - the more common of the two).
The link you're responding to is about tetrafluorohydrazine, which is some kind of hydrazine and fluoride. I think it's mentioned in Ignition! but I can't remember. I just remember John Clark (the author of Ignition!) being very very hesitant and even frightened of working with fluoride based fuels.
I'm not really sure how how it's tetrafluorohydrazine is relevant to the X37-B though.
You remember the Crew Dragon test that exploded? The orangeish smoke cloud? Don't breathe that. That uses NTO + MMH.
"On 24 July 1975, NTO [dinitrogen tetroxide] poisoning affected three U.S. astronauts on the final descent to Earth after the Apollo-Soyuz Test Project flight. This was due to a switch accidentally left in the wrong position, which allowed the attitude control thrusters to fire after the cabin fresh air intake was opened, allowing NTO fumes to enter the cabin. One crew member lost consciousness during descent. Upon landing, the crew was hospitalized for five days for chemical-induced pneumonia and edema."
When used as a bi-propellant, hydrazine is usually combined with N2O4, which is also super toxic.
It is not just the military that uses these things. Everyone uses it because it is the best performing high thrust (not ion engine) non-cryogenic (storable) propellant. It being hypergolic (self igniting) is a bonus for reliability.
The military actually switched to solids for ICBMs and SLBMs.
The F-16 has a hydrazine APU, and I would not be surprised if the F-35 does the same thing.