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Can you fly with one blade missing?
Sounds daft, but bear with me..
I remember reading a story once, possibly from the Korean war, where a heli was shot down and the pilots removed the damaged blade and managed to get it airborne again (albeit with some serious shaking!) to avoid capture by the enemy. Anyone heard of this story? Do you think it's possible? I might have read it in this: http://www.amazon.co.uk/Tales-Helico.../dp/1560989521 But I don't have the book here so I can't check. |
Impossible. The imbalance would roll the helicopter over in seconds. Blades on a Hiller or Bell47 in those days weighed around 85 pounds. An imbalance on a Hiller of a .1 ounce make them already shake like .....
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Don't think so.
You might have a chance if you have 4 blades and remove 2 - but thats only a guess. Going through all the accidents, where a helicopter touched someting with the blade - and knowing how tiny the bolts on the main gear box are - and having had vibrations, only to a lost sctoth tape - one blade off would rip out the gear box in moments. Greetings Flying Bull |
Hey. I have heard the same story, that a copter crew was shot down in vietnam. They flew with "Killer egg" four bladed, similar to 500. So they removed damage blade and the oposite blade and took off before captured.
Dont know is it true:rolleyes: Regards Kiilik |
I believe that a Bell 205/212 lost a blade in the Philipines, aircraft flying in formation reported that the aircraft had "blown up".
A number of years ago a Hughes 500 was involved in a mid air with a Bell 47(Bristows) in Kent. The 47 blade got a bit mangled but the aircraft landed safely. The 500 lost 9 inches off one blade tip including all the weights and went on to land with no casualties. The damage to the 500 was substantial due to the vibration. The instrument console sheared off at the base, and there was little structure left retaining the tailboom. It was possible to move the boom end up and down about 18 inches. Tough aircraft!!!!!!!!!!! |
A rotor sytem with an odd number of blades and missing one of its blades would shake itself to bits well before flight rpm.
With an even number of blades (eg 4), if you remove 2 opposing blades you would need twice the angle of attack on the remaining blades to produce the same amount of lift. Assuming you could raise the lever high enough would the resulting pitch angle cause the blades to stall? Any deciples of Prowty out there care to enlighten us? |
Someone should try it!!!!
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Yes it can be done........................ and THE PROOF to show it, see
http://www.popasmoke.com/visions/image.php?source=4225 |
I recall a video of a US Super Stallion loosing as blade whilst mid-air refuelling - all seems well until the helo appears to catch up with the refueler and as he tries to compensate the refueling line disconnects and flies upwards taking out at least one blade.
The helicopter certainly doesn't fall out of the air or appear to tear itself apart - quite what happened next isn't covered on the video, hope all walked away (probably with a few hefty dry cleaning bills). |
Ouch!
docstone,
the video I think you are referring to can be seen here: http://www.youtube.com/watch?v=iyAMC7miuy4 The blades remain intact, but the refuelling probe gets trimmed! |
I would not like to do the vibe run....and I think the 2 pers (well now theres a quandary there wouldnt be any 2 pers with 1 blade missing lol) would just about kill the drivers kidneys!!
Given that the blades cone when under load and the loading is spread across the disc (in a perfect world) I can see that you would lose altitude very quickly (no autos on one blade - you are the deadmans curve then!!) and it would probably be safe to make the assumption of the flight ending in a large smoking hole... Dunno I will ask our test pilot what he reckons - I bet I know what his reaction will be F:mad: off!!! |
Both a British Army Lynx and a Gazelle, and a Bristow 76 have lost a MR blade in flight in previous years. No survivors. I think to get a helicopter back on the ground and walk away would depend greatly on what stage of flight it happened and on a great amount of luck.
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As far as I remember my BO105 groundcourse several years ago, the centrifugal force on one blade at 100% NR is about 10 metric tons!!!
So loosing one complete blade would result in an massive imbalance and total destruction of the dynamic system in a very,very short time . skadi |
Originally Posted by Rotating Star
Any deciples of Prowty out there care to enlighten us?
In theory removing half the blades, if system is still in balance, doubles the blade pitch. This means machine limits are halfed, so any manouvre will stall the blades with a good chance of overtorque on the transmission. Not generally a good idea. |
Bristow 76 in a mid air with a Bell 47(Bristows) |
The problem with the loss of a large piece of rotating mass is not the loss of lift (most rotors have enough collective pitch to give the remaining blades the angle necessary to make up the lost lift.)
The vast problem is the whirling imbalance, which is usually several times the mass of the helicopter. For a 10,000 lb helo, the blade might have 30,000 lbs of centrifugal force (physics jocks please forgive me) so that the loss of a blade can give you as much as 3 g's of lateral imbalance. This is not just a pilot shaking problem, it is also a primary structural nightmare. The fuselage usually has a lateral natural frequency of about 3 to 5 Hz. To see this vibration on your helo during your next walk-around, try to shake your helo by grabbing the tail and giving it some tugs laterally. Find the natural frequency by shaking it where it "likes" the frequency and shakes a bit more, like "pumping" a swing to make it get higher. For many helos, this natural fequency is lower than 1 per revolution, so it can be excited by the big imbalance due to the loss of the blade. For larger transports, this frequency is the torsional-lateral tuning of the vertical tail and the tailcone. If a blade is lost, the shaking can literally tear the aircraft apart, typically by collapsing the tail cone where it attaches to the fuselage. Look at this terrible video carefully, and note how each airframe failed in the same way, at the same place, long before the ground was struck: http://www.thatvideosite.com/video/868 |
During my 'Battle Damage Repair' course in the Army, we were told it was possible to saw up to 1 metre off the end of all 4 Lynx main rotor blades if they were damaged.
Knowing what I do about M/R track and balancing, you would have to be spot-on with the measuring of the saw line to prevent a massive unbalance. Centrifugal pull of one Lynx M/R blade = 55 tons!!!! |
Hi Mark Nine,
The Lynx can take it (partly). There where two near similar incidents, one with two german Navy Lynx and relative short later with two british Lynx, they just didn't belive and had to try themselves ;-) While doing formation flying - they flew just a little bit to close and touched rotorblades.... On both occasions all helicopters managed to land - the germans on their frigates, the british did it over land - so no deck landing required. From the german side: One helicoter lost parts on all four main rotor blades.... the other one had bend edges. The one with the bend edges had the worst vibrations. Couple of years later one Lynx lost a part out of one blade - about an meter or so from the point where the folding gear is normally attached. They decided to ditch and were rescued later. But prolonged flight isn't recommended ;-) Greeting Flying Bull |
Flying Bull wrote: The one with the bend edges had the worst vibrations. skadi |
Yes a helicopter can fly with one blade missing.
However, it requires a special rotor. The swashplate must be replaced with a swishplate, plus the normal blades must be replaced with gay blades. The swishplate has the ability to control gay blades as they continually depart and return to the 'group'. |
The Bristow S76 that crashed off Yarmouth lost about 12 feet of one blade.
The head and main transmission were torn out of the airframe. There is a full report on the AAIB website. For the record that was the second Bristow 76 to loose a blade, the previous aircraft accident was caused by spindle failure again not survivable. |
I also read about an OH6A pilot who got shot in a blade and had to land behind enemy lines. After removing the opposite blade (leaving two from four) and stripping the machine bare he managed to get it airborne and stagger back across to safety, have no idea where I read it and I have tried to find it a few times...Is it in "tales of a helicopter pilot"??
SL |
As Mr. Dave Jackson should be aware, a rigid rotor configuration would be more survivable than a hinged rotor configuration in a blade-off condition.
Right?:ok: |
I flew chase for those flights, back in the day. Same config, one shot is from below, so the rotation appears backward.
The 3 bladed flights were flown to confirm the behavior of the rotor at lower blade loadings, so that performance for the next gen of Sikorsky helos could be examined. The ability to recover was also tested, of course, but at the cost of flight test, that was not the biggest driver. The vibrations were simply awful, BTW. The normal 53 needs no vibration suppression gear, but since vibes go up when number of blades go down, the three-bladed 53 was another world. The pilots (Jim Kay and Al King) had difficulty reading the instrument panel. |
I think what cross-land is trying to point out is that the rotor blades are a different style. Look at the point where the extension arm changes to the lift section. On the six bladed aircraft, the change is 90 degrees, (old design) and on the trial aircraft the change is 45 degrees, (a newer design).
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Mark and cross,
You are both right, I missed that detail! The 3 bladed flight was flown with cut down IRB's with SC 1095 airfoils and titanium spars. The original 53D has NACA 0012 airfoils and aluminum spar blades. Using the newer blades gave better data for the real purpose of the test, to determine the performance for the newer Sikorsky designs. |
When the BV 234 was first introduced to the North Sea one of the assurances given to the Shell passengers was 'Twin Rotor Safety'. They honestly believed that it could fly on one rotor.
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If I'm not mistaken, there is/was a one-bladed helicopter that flew. Bolkow 101 I think.
Monk |
Like this? The Bo-103
http://www.luftrettung-hamburg.de/as...ges/BO_103.jpg And the Bo-102 Helitrainer http://www.geocities.com/capecanaver...o103vistas.gif http://www.eurocopter.com/site/docs_...histbo102g.jpg |
I bet its easy to track:} - and I bet you cant fly that with one missing:}:}
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I dont really see the point of a single bladed design as wouldnt you still have the same rotating mass but less lift?
What are the benefits? :confused: |
For the interested :8, or the very bored :bored:
Research and development work on a Single-Bladed All Electric Rotor It appears that the single-bladed rotor will work well in hover and in vertical climb. Forward-flight is the problem. It's unfortunate because it would have been a simple and fun project to build. Dave |
I would hate to be the guy that lifed the hub bearings on the BO-103!!:eek:
Even though the mass balance is there, effectively it is as if the cyclic was going around the box at Nr. The vibration must have been awful. The mass could have been set lower than hub to generate an equal and opposing hub moment to the lift, but this would only work for 1g. Any actual cyclic input would still lead to out of balance moments, hence a means of 1P vibrational energy getting into the structure. I wasn't sure if that hub was teetering - it's hard to tell from the hiller bar. However, cyclic vibration is why hingeless hubs always have 3 or more blades... |
Mart,
Vibration should only have been a problem during any attempt at forward flight. It should not have been a problem during vertical; climb, hover and descent. See the links at the bottom of this page http://www.unicopter.com/B465.html Dave Here is the Boelkow hub plus additional information on the craft. http://www.unicopter.com/B472.html |
can you fly with one blade
A friend of mine was test starting the engine on a 22. The machine was minus its main blades, but had tail rotor blades. The engine fired and a split second later one tail rotor blade broke loose, the next second the tail rotor gearbox plus a section of the boom departed and was found later about eighty yards away. The belt drag on the pulleys was enough to spin the drive train up.:O:O:O:O
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I wouldn't mind seeing the video of that!
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In most cases it won't work very well....
We lost a S-61N in the North-Sea in 1978 due to a spindle brakedown followed by a blade loss. They found helicopterparts on the seabed covering about 1 sq.km. due to domolation. 21 souls lost.
Another S-61N (Brazilian) actually flew into the sea due to severe vibrations in June 1997. The pilots lost control completely. The wreck was picked up from 800 meters depth. There are 2 theories: -One blade abration strip came loose. The weight is 340 grams, but due to angle of speed it induces much, much more. Heavy lateral imbalance! -Another theory is that on blade broke and lost approx. 1/3. This was found on the seabed about 100 meters from the wreck. The rest of the blades were twisted around the hub as they met the water. 2 of 20 lost their life. Conclusion: NO := |
I am a bit of a practical man if I do say so myself. And yes I did bear with you for the last couple of days. SO...experimentation aside, and/or removing a blade on the ground for test purposes is one thing, the fact of the matter if you lose a blade in flight you're screwed! Occupational Hazard.
BWB PS I found the research many of you did enjoyable to say the least. Burned alot of my time while weathered out in the bush. thx |
After reading here how death is almost unavoidable when the MR becomes unbalanced, wouldn't it be a life safing option when it is possible to "just eject" the oposing blade?
That would probably give enough stability to safely autorotate ... |
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