Rumor is the total damages (not including loss of revenue from being OTS) will come to $5 million USD.
|
Over rotating on take off is poor pilot technique |
it is possible, though quite rare, that if improperly loaded a normal rotation can suddenly turn quite bad ending in a tail strike. I am not suggesting that these two events in the thread are that situation.
for anyone who has not seen a ''tail strike'' may I suggest the following movie? "thirty seconds over tokyo" has a tail strike in it. Done intentionally in the first 30 minutes or so, it is also the source of the name of the author of the book of the same name. "The Ruptured Duck". Except for the mushy parts, its a great movie. |
|
"Stepwilk: Since I have never flown aircraft long and powerful enough to whack their tails, can somebody explain to me what causes tailstrikes?"
Actually, if you are around small tricycle planes, especially those used for training or rental, take a look at their tail tiedowns. You will note that a lot of these have flattened bottoms, the result of inadvertently becoming tailskids multiple times through tailstrike incidents. In training they most commonly happen when practicing low-speed liftoffs into ground-effect (short or soft-field techniques). So length and power don't necessarily have a lot to do with it. It is a question of either poor control technique, or correct technique applied at too low a speed. Put simply, if the aircraft will suffer a tailstrike at, say, 12 degrees, then the rotation (even if perfectly executed) had better not take place until the speed (and thus lift) is sufficient to lift off at a lower angle of attack (say, 8 degrees). While small planes usually rotate and lift off at "oh, about 65 knots," a specific Vr is calculated for every heavy-aircraft flight based on weight, air temp, etc. Either a poor calculation of Vr, or an error in setting that Vr on the airspeed gauge, may lead the pilot to rotate at too low a speed. Flying by the numbers only works if the numbers are right. |
Good article by Boeing.
|
One has to question the effectiveness of AA's FOQA and ASAP programs.
|
I think any pilot hired by AA would know how to properly land an airplane before being hired. AA shouldn't have to train their pilots to land. Maybe the management pilots need to stay current and not just fly once a month. If they only fly once a month maybe they should watch a video of how to rotate on take off and land an airplane. Look at management pilots versus line pilots incidents and you will see what I am saying.
|
there is some wisdom in what bubbers 44 has to say. but not just management pilots...any decent pilot who hasn't flown in awhile (you fill in the blank here) needs to get back in the swing of things.
we've done automation to death...couple the lack of handflying with reliance upon automation and only flying once a month and you have problems headed your way. the solution is simply this...management pilots should not be on any type of long haul flying...short legs with lots of takeoffs and landings will help keep them current. You don't need to practice sitting in cruise for 4 hours or so...that should come naturally. |
The problem with the short flights is management doesn't want to do them. They want to do two legs a month to somewhere easy. That is how it has always worked in my company. The Hawaii flight was easy so made him current for the month. He just forgot how to rotate properly because he spent the last month in his office. How many of us have scraped their tails? None for me in 23,000 hrs. I am sure for you watching too.
|
7sr, I agree with what you say about management pilots flying short legs but they won't do it. They just want to fill the square as qualified pilot so make it as easy on themselves as they can. The ORD chief that overran Little Rock Airport is an exception.. He was doing the tough trips.
|
all the recent Bravo Sierra about min fuel, management pilots not doing short legs with more landings, and other things could be fixed by the simple expedient:
the FAA changes the fuel reserves to 75 minutes instead of 45 minutes (plus the other stuff) and make it 6 landings in 90 days instead of 3. oh well. |
I was on the AA 757 LAX HNL in First Class. The rotation did seem slower and steeper then normal up front. The F/A's in the back knew something had hit as everyone aft of the wings according to them could hear it. The Captain said little except we are returning to LAX. We landed 25R full fire rescue and taxied into the gate. The Captain said "we probably will be departing soon so everyone stay seated with this minor delay" I was laughing so hard. I told the guy next to me we are OTS no question. 5 minutes later a MX supervisor came on told the CS lady the plane has a big hole in it. :eek:
|
The fire/rescue was required because they were landing over max landing weight because the 757 has no fuel dump capability. If the captain thought initially they would be able to leave again shortly he had no knowledge of the damage done.
|
Originally Posted by bearfoil
So, "flair" is the culprit. Hunting (waiting) for liftoff after initiation (rotation) or T/D (landing) is not a stabilized approach. Rather simple. Is that it? Poor speed control?
It may be parochial, but Ive always heard, and used, the term flair in connection with landing i.e., the adjustment of the attitude of the airplane to decrease the rate of descent in preparation for landing. A tail strike may well be a result of a non-stabilized approach, but it is by no means the only reason for getting the tail on the concrete. More often than not, a tail strike on landing is due to a continuation of the rotation, beyond and some cases well beyond the level flight attitude. This normally comes from the fact that in order to achieve a level flight attitude (the attitude in which touchdown should occur and please note a level flight attitude for the aircraft gross weight and configuration is not necessarily a longitudinally level fuselage) there must be a control column movement aft to raise the nose. However, once the level flight attitude is achieved, any further aft column movement should be ONLY to maintain THAT established level flight attitude as the airspeed decreases (which will occur more rapidly with power reduction). Often the pilot will have more airspeed than necessary or decide to delay power reduction and is of the belief that a continued aft movement of the controls is necessary when it is not. In such cases, the airplane will continue to rotate nose-up until either the tail strikes the runway surface while still airborne, or the attitude achieved is so great that when the main gear tires contact the runway, the attitude is above that which will allow tail contact either with the main gear struts fully extended or fully compressed. If the airplane is landed in the attitude that would provide level flight (if sufficient power was used to maintain the airspeed achieved at the end of the flair) additional back pressure on the control column will be required (without raising the nose) to keep the attitude achieved at that point (i.e., level flight attitude) and the power reduction to idle will allow the airplane to land, somewhat firmly, but certainly not unsatisfactorily so, and with ample clearance to avoid a tail strike. Such an attitude also requires less time to fly the nose onto the runway, getting the airplane into a 3-point ground contact attitude sooner to better ensure directional control if/when required. And for those who have discussed landing on an up-slope or down-slope runway the level flight attitude should be the attitude that would allow constant airspeed flight parallel to the runway surface (very slightly climbing with up-slopes and very slightly descending with down-slopes). If the flair is begun taking less than 3 seconds to achieve the desired flight attitude at an altitude that will put the main gear between 3 and 5 feet above the runway surface when reaching the landing attitude (level flight attitude) if the power reduction to idle is begun on the initiation of the flare or, at the latest, upon achieving the landing attitude, the airspeed will decay rather rapidly and will require additional backpressure on the control column again, NOT to raise the nose, but to achieve and MAINTAIN level flight attitude. Touchdown will occur no later than 3 seconds after achieving this attitude. If the airplane is still in the air after 3 seconds in the flaired attitude, serious consideration should be given to executing a go-around. |
Tail strike
Most management pilots get a promotion after a tail strike-DOH!!:{
|
OldrnU2 :
Most management pilots get a promotion after a tail strike-DOH!! |
757-300 tail clearance on take off is just 26 in (66 cm).......
Thanks God, I am just -200 driver! |
Tail clearance is really not an issue on the 753 however as the take off and landing speeds are much higher to compensate.
I have never seen it remotely close as it seems to lift off and land in a significantly lower attitude. Incidentally, the 753 is a much nicer flying Aircraft than the -200. No dead spot in pitch on rotation or landing and more responsive in roll. It may not be a rocket ship but it is a delight to handle :ok: |
just 26 in |
All times are GMT. The time now is 14:28. |
Copyright © 2024 MH Sub I, LLC dba Internet Brands. All rights reserved. Use of this site indicates your consent to the Terms of Use.