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Space Technology

Government Watchdog Says SpaceX Falcon 9s Are Prone To Cracks (engadget.com) 139

An anonymous reader shares an Engadget article: SpaceX's Falcon 9 rockets apparently have a serious issue that could delay the company's manned missions. According to the Wall Street Journal, the Government Accountability Office investigated both Boeing and SpaceX -- the corporations that won NASA's space taxi contracts -- and found that Falcon 9's turbine blades suffer from persistent cracks. GAO's preliminary report says these turboblades' tendency to crack is a "major threat to rocket safety," since they pump fuel into Falcon 9's rocket engines. NASA's acting administrator Robert Lightfoot told the WSJ that government officials have known about the issue for months or even years. The agency even told SpaceX that the cracks are too much risk for manned flights. A spokesperson said SpaceX has "qualified [its] engines to be robust" to cracks, but it's now "modifying the design to avoid them altogether."
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Government Watchdog Says SpaceX Falcon 9s Are Prone To Cracks

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  • Funny (Score:4, Insightful)

    by Luthair ( 847766 ) on Friday February 03, 2017 @01:07PM (#53796595)
    How all the positive stories about Tesla and SpaceX make reference to Elon but all the negative stories don't even mention him in the summary and often (as in this case) in the article.
    • Re: (Score:1, Insightful)

      Comment removed based on user account deletion
    • How all the positive stories about Tesla and SpaceX make reference to Elon but all the negative stories don't even mention him

      That is because when there is good news, Elon is front and center to deliver it himself. When there is bad news, it is buried in paragraph 3 of some PR webpage.

    • the negative stories don't even mention him

      It should - he was just tweeting recently that the block 5 Falcon was making reliability improvements (this) and that man-rated would wait for those.

      Not sure how you get more upfront in 140 characters.

    • Maybe because many positive things about Tesla and SpaceX are his ideas and his tweets, but many negative things are just hyperbole or standard operational issues ... like NASA saying there's a problem in an engine and SpaceX needing to fix it. Why would you need to quote Elon Musk for that? He has provided nothing to quote on.

    • by dbIII ( 701233 )
      I don't see this as negative.
      They have found some cracks and are dealing with the problem.
      Anyone who expects prototypes to be born perfect is either deluded or an economist.
  • by hkultala ( 69204 ) on Friday February 03, 2017 @01:13PM (#53796643)

    Falcon 9 and the space shuttle are the only rockets whose engines have survived the launch so that they could have been inspected. And similar cracks have been found on shuttle engines too. Many other rocket engines very probbly have generated similar cracks during their burn, but those have not been inspected because the engines have gone to the bottom of the ocean.

    There have been 28 launches of falcon. During those 28 launches, 279 Merlin 1-series engines have been used, with only 1 major engine problem. And even in that case, the rocket delivered the primary payload to the desired orbit; Each falcon 9 has 10 engines and only on of those 10 engines is critical whose failure leads to mission failure.

    So, until now, the engines have had 99.64% reliability, and due the engine redundancy, only 10% of engine failures means mission failure on most launches(upper stage engine may not fail), meaning mission failure probability of 0.04% due failing engine if the engines keep working equally well in the future than they previously have been working.

    No, the this turbine thing is not a big problem. Bigger problems are elsewhere, and spaceX is improving the turbine blades. They will continue launching the version with the weak turbine blanes for some time, and it's very unlikely it will cause ANY problems at all, and then later the will release the block 5 model of the rocket with more robust turbine blades.

    It seem that the whole issue is "leaked" by some guy who is pissed to spaceX/Elon for something and the media is always eager to post this kind of "leaks" without really understanding what it is all about.

    • The other engines that went to the bottom of the ocean weren't scheduled to be reused over and over again.
    • by zuckie13 ( 1334005 ) on Friday February 03, 2017 @01:28PM (#53796823)

      Plenty of other engines have been inspected on the ground after running one or more full flight cycles on engine test stands (like every engine ever used), so there is actually data on more engine types than just those two. The damage comes from the part where they run the turbines at ludicrous speed for several minutes, not the fact that they re-enter

      Standards when a human is on board are way more stringent than for cargo. They have to meet an overall 1 in 500 probability of failure during ascent, and it sounds like the blades are bad enough that that hurts them on meeting this requirement.

      That being said, there are plenty of other parts I'm worried about, like structural failures in fuel tanks (they've had two of those that have actually destroyed rockets).

      • by ljw1004 ( 764174 )

        Standards when a human is on board are way more stringent than for cargo. They have to meet an overall 1 in 500 probability of failure during ascent

        Are you sure? Ars mentions "NASA's mission requirement for a loss-of-crew probability of 1-in-270" -- presumably "mission requirement" covers ascent, orbit and descent.

        https://arstechnica.com/scienc... [arstechnica.com]

        • Two different number there. 1 in 270 for the whole mission (so ascent, on-orbit issues, and descent/landing). Ascent by itself (the only portion of flight that uses these engines) has to meet 1 in 500.
    • Yep. With non-recoverable rockets that end up on the ocean floor, we never know if the rocket engines were consistently on the edge of catastrophic failure. Without looking at the used engines, the only thing we really know about expendable rockets is that they generated nominal telemetry during operation.

    • by fubarrr ( 884157 )

      >Falcon 9 and the space shuttle are the only rockets whose engines have survived the launch

      Not true. 11F35's RD170s were recovered after parachute landing and are still standing at Energomash museum. First standalone Zenit launches were also all recovered. All Russian engines has to be test fired multiple times prior to launch. Yes, even beryllium/H2O2 sludge and B5H9 + ClF5 burning wunderwaffes like RD270M were test fired.

  • by 93 Escort Wagon ( 326346 ) on Friday February 03, 2017 @01:19PM (#53796697)

    As Elon would say, the cracks may simply lead to Rapid Unscheduled Passenger Disembarkation.

  • by mykepredko ( 40154 ) on Friday February 03, 2017 @01:28PM (#53796829) Homepage

    I think somebody said that over the past year or so.

    While an important safety issue, it's good that it is identified and plans are in place to fix them before the Falcon is considered man-rated.

    Excelsior!

  • I am not a rocket scientist, and I do not play one on TV either. How does the turbine function in this rocket?
    • by Anonymous Coward

      After exhaustive research and digging,some deep soul searching, and some visits to top rocket propulsion laboratories worldwide I have concluded that the summary states "they pump fuel into Falcon 9's rocket engines".

    • by Anonymous Coward

      It's part of the fuel pump. Turns out, injecting a hair under 400 tonnes of liquid oxygen and RP-1 into 95 atmosphere chambers over the course of three minutes takes quite a bit of doing, and the pumps to do that are much of what makes up a liquid fuel rocket engine.

      • Is the turbopump subject to combustion temperatures; as well as alarming pressures; or is it at a point in the fuel delivery system where most of the material isn't on fire yet(I assume a modest amount is being used to drive the turbopump; but that's less alarming than the conditions in the rocket engine itself)?

        I ask because, in jet engines, where the turbine blades are exposed to combustion temperatures, fabricating them is a considerable challenge because optimal operating temperatures are well above
        • by dbIII ( 701233 )

          because optimal operating temperatures are well above the melting point of even the comparatively exotic nickel alloys preferred for the job

          To get some perspective so is your lawn mower engine, but conduction through the Al-Si alloy block means that the parts don't get anywhere near the flame temperature.
          Jet turbine blades get hot but still nothing like the flame temperature so nothing like the melting point of Inconel or the more modern alloys used - but they do get hot enough that the mechanical propertie

    • The rocket uses turbine pumps to push fuel and oxidizer to the engines.
    • by fubarrr ( 884157 )

      Gases push them and they rotate to power the kerosene pump

    • by mandolin ( 7248 )

      I'm not much better educated than yourself, but here's an attempt (which may be wrong):

      The higher the pressure a combustion chamber runs at, the more efficient the combustion tends to be, so your rocket goes higher for a given amount of fuel. To get enough fuel into a high pressure chamber you need a good fuel pump. To drive this fuel pump, a gas turbine is used (the resulting fuel pump is called a "turbopump").

      Inside the gas turbine, the turbine proper (the spinning fan-thingy at the back) is driven from

    • by gman003 ( 1693318 ) on Friday February 03, 2017 @02:43PM (#53797701)

      It's a fuel pump. Unlike a reciprocating engine, where you can inject the fuel at low pressure and then compress it, a rocket engine has to inject the propellant at the same pressure it's burned at, and thermodynamics wants that pressure to be as high as possible in order to get maximum efficiency (imagine a car engine that injected fuel at the top of the cylinder stroke instead of the bottom). Combined with the sheer amount of propellant being used, that means you need an absolutely insane amount of power in your fuel and oxidizer pumps.

      So they use a turbopump. A small amount of fuel and oxidizer are tapped off and burned. The resulting hot CO2 and H2O are used to run a turbine, which drives the pump. In the Merlin engines, and in many other engines, it ends up just exhausting, generating no additional thrust. Other designs, including Raptor, find ways to re-use that exhaust to generate a bit more power.

    • by k6mfw ( 1182893 )
      In general, very general, a powerful rocket engine needs to pump large amounts of fuel and oxidizer at a very high rate. Then consider handling something like liquid oxygen is also very difficult. It's part of a system (nozzle, tank, feed lines) that operates at pressures and temperatures way beyond what's in your car. I like how you phrased the question, silly but actually quite honest. And consider searching for ***good*** info on rocket fuel pumps, lots of luck finding something worthwhile on the interne
  • On all F9 history only 1 engine have failed. And that rocket has 9 engines. The other 8 compensated and the primary objective was ok.
    Also GAO does not find technical problems....
    Spacex and Nasa found it, a long time ago.
    GAO only predicts it can be a cause for delays beyond 2018.
  • by jfdavis668 ( 1414919 ) on Friday February 03, 2017 @01:51PM (#53797095)
    Yet, it was man rated. So was Apollo 14-17. Apollo 1 burned up during a test. They were man rated, yet much less reliable than the Falcon 9. No rocket is perfect.
    • The Saturn V could also put six times the payload into LEO, and each one of its first-stage engines produced more thrust than the entire F9 first stage. Apples and oranges, and the S-V was also designed 50 years ago without the benefit of modern computers and materials science.
      • SpaceX's planned endgame will have more payload to orbit than the SaturnV (Falcon XX heavy)

        Right now there aren't such big rockets because there isn't a _need_ for them. I'd still like someone to build a Sea Dragon though.

    • by dbIII ( 701233 )
      The fire in Apollo 1 was in the capsule not any of the rocket stages.
  • This is NASA, they're pretty anal about manned spaceflight. You damn well better engineer the turbines to get rid of the cracks.

    There is a huge potential for savings with SpaceX's model for launching and reusing rockets, but it all collapses given just a few failures.

    If they get very high reliability of their rockets, reuse will end up being a cost destroyer. If they blow some rockets up the reuse savings will disappear.

  • Dunno why it hasn't been said, but SpaceX did not design the turbopump in their engines.
  • by Agripa ( 139780 )

    There is an easy solution to this. Do what NASA did for the Shuttle engines and redefine cracks in the turbines to be a maintenance problem instead of a flight safety problem.

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