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#21
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The loads on spin recovery can be quite unpredictable,
especially if the recovery pull-up is done with some twisting moment still present on the tail - hence we are trained to stop the spin, unstall the wings, recover, not one 'pot-stirring', stress-inducing manoeuvre. This is an interesting point - I guess lots of pilots employ a mushy some/loads/a bit of rudder (very slightly ahead of ) stick-forward. Quickly followed by pull back. We do this because it works and no one has explained exactly WHY there are mysterious pauses in the official spin recovery. -- Jonathan |
#22
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Robert John wrote:
Never assume the glider is stronger than the placarded limits. Don't get me wrong: I didn't say because there's a safety cushion of 50% you should go for it. Don't! I said theres a safety cushion of *only* 50% to catch the unpredictable. Besides, as you pointed out, the placarded load limits are for "straight" load only. Add some twisting forces, and bang! Stefan |
#23
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snip
.. JAR further requires that the break load be no lower than 1.5 times the allowed load. Yes, 1.5 times is the ulimiate design factor for the aircraft. However 1.0 times the allowed load is the limit facter. If you exceed the limit factor you may (will?) damage the aircraft structure but it will not fail until 1.5 times the limit. This is especially true of metal structures where the material itself will fail (i.e. Break) at about 1.5 times the yeild strength(i.e. bend permanently). Brian Case CFIIG/ASEL snip |
#24
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I have always understood that the first composite gliders were well
over-engineered, because the manufacturers were dealing with a new technology and did not want any risk of failure. I have not heard of any problems with old glass gliders due simply to age or high hours. As designers and manufacturers have gained experience I imagine they have been able to design and build to the limits rather than way past them, so gaining performance and reducing cost. There are a number of cases where older designs have had the limitations increased without any modification to the airframe. Perhaps one problem we now have is stall/spin recovery. The usual cause of disaster from a stall/spin is hitting something (usually the ground) before recovering to normal flight. There is another problem, flying outside limits while recovering to normal flight. This can happen with any type if the recovery is handled badly, I have known of cases involving a Ka6E and more than one K13. Modern types of glider are easy to fly, and normally reluctant to depart into an inadvertent stall/spin (and often difficult to make spin deliberately). However, many of them can depart violently into a steep spin, and recovery has to be immediate and correct or Vne will be exceeded. This is most likely to happen when ballasted and thermalling hard in strong lift. I know of three fatal accidents where it appears that the glider went outside limits while recovering from what appeared to be an inadvertent stall/spin recovery. 1. ASW20CL at Dunstable (I think more than 10years ago), the glider reached a speed in the dive which made the dive irrecoverable; the C. of G. may have been aft of limit. 2. Nimbus 4DM at Minden on 13th July 1999. http://www.ntsb.gov/publictn/publictn.htm , then http://www.ntsb.gov/publictn/2002/AAB0206.htm or http://www.ntsb.gov/publictn/2002/AAB0206.pdf . From the report it would appear that the glider departed into a stall/spin while thermalling, and was overstressed in the subsequent dive while recovering. The brakes opened during the recovery, which reduced the 'g' limitations; correspondence to Rec. Aviation Soaring indicates that some pilots have experienced inadvertent deployment of the brakes on this type of glider. There was also a suggestion that the pilots may have been incapacitated by a problem with their oxygen system, thought there was no evidence to back this. 3. Nimbus 4DM in Spain 1999. Referred to in the report of the Minden accident above. Quote: "the pilot stated they were in a turn when a heavy thermal caused the glider to enter a steep descending spiral. The pilot could not recover the aircraft from the spiral and the glider quickly exceeded Vne. The pilot then reported that the right wing failed and he bailed out." The second pilot was unable to bail out. W.J. (Bill) Dean (U.K.). Remove "ic" to reply. "Howard Franks" wrote in message ... I have always assumed the recent (last 20 years) composite gliders to be very robust, i.e. no issues flying right up against placarded limitations at anytime (maybe once or twice nipping over?). Perhaps the Eta break-up is a sign that we are reaching the structural/design limitations of the current materials and the designers ability to optimise gliders for performance. Are we at the point of diminishing returns where the small increase in performance only comes at a far greater risk of structural failure (similar to the Americas Cup yachts). This coupled with the recent Schempp-Hirth issues (agreed manufacturing not design defects), and the AD restricting GROB 103s is leading me to rethink just how tough these things are. |
#25
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On Fri, 3 Oct 2003 14:48:55 +0100, "W.J. \(Bill\) Dean \(U.K.\)."
wrote: I know of three fatal accidents where it appears that the glider went outside limits while recovering from what appeared to be an inadvertent stall/spin recovery. 1. ASW20CL at Dunstable (I think more than 10years ago), the glider reached a speed in the dive which made the dive irrecoverable; the C. of G. may have been aft of limit. 2. Nimbus 4DM at Minden on 13th July 1999. http://www.ntsb.gov/publictn/publictn.htm , then http://www.ntsb.gov/publictn/2002/AAB0206.htm or http://www.ntsb.gov/publictn/2002/AAB0206.pdf . From the report it would appear that the glider departed into a stall/spin while thermalling, and was overstressed in the subsequent dive while recovering. The brakes opened during the recovery, which reduced the 'g' limitations; correspondence to Rec. Aviation Soaring indicates that some pilots have experienced inadvertent deployment of the brakes on this type of glider. There was also a suggestion that the pilots may have been incapacitated by a problem with their oxygen system, thought there was no evidence to back this. 3. Nimbus 4DM in Spain 1999. Referred to in the report of the Minden accident above. Quote: "the pilot stated they were in a turn when a heavy thermal caused the glider to enter a steep descending spiral. The pilot could not recover the aircraft from the spiral and the glider quickly exceeded Vne. The pilot then reported that the right wing failed and he bailed out." The second pilot was unable to bail out. To which can be added the in flight breakup of a Blanik L13 at Narromine NSW in about 1996 or 97 I think it was. Two dead, instructor and student. Intentional spin(Annual spin check!) which developed into a spiral and the glider was overstressed in the recovery, bending the rear fuselage and preventing recovery from the dive. Neither pilot was wearing a parachute. Just my opinion but intentional spinning is something that should be treated with great caution. Brief the exercise properly, wear parachutes and be prepared to use them. Best done in something like Pitts S2 which is likely to hang together rather than a slippery sailplane. Mike Borgelt |
#26
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"W.J. \(Bill\) Dean \(U.K.\)." wrote in message ...
I have always understood that the first composite gliders were well over-engineered, because the manufacturers were dealing with a new technology and did not want any risk of failure. I have not heard of any problems with old glass gliders due simply to age or high hours. As designers and manufacturers have gained experience I imagine they have been able to design and build to the limits rather than way past them, so gaining performance and reducing cost. There are a number of cases where older designs have had the limitations increased without any modification to the airframe. ************************************************** ******************************* Until recently I thought of the Grob 103 as an over-engineered glider, especially the fuselage and tail. It is quite heavy and I don't have first hand knowledge of any with broken tail booms. I do know of several which have been ground-looped without structural damage. |
#27
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"Slingsby" wrote in message om... Until recently I thought of the Grob 103 as an over-engineered glider, especially the fuselage and tail. It is quite heavy and I don't have first hand knowledge of any with broken tail booms. I do know of several which have been ground-looped without structural damage. I have heard of, but not seen, G-103's with snapped tail booms. Locally, over the years, we have had at least two snapped tail booms on plastic gliders, both from unavoidable groundloops in off-field landings. It happens. Vaughn |
#28
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Which Eta was it?
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#29
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Who owned that one?
"Markus Feyerabend" wrote in message ... No. 2 D-KFEM Regards, Markus Pat Russell schrieb in Nachricht ... Which Eta was it? |
#30
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DonŽt know, but from the registration it could be Erwin Mueller...!?
IŽll try to find out tomorrow.. Regards, Markus Paul Remde schrieb in Nachricht ... Who owned that one? "Markus Feyerabend" wrote in message . .. No. 2 D-KFEM Regards, Markus Pat Russell schrieb in Nachricht ... Which Eta was it? |
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