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Soren,
Can I ask where you get the information that the Laminar airfoils in a P51 would means sharp and unpredictable stalls in high G turns.
I can tell you from personal experience that a LOW speed stall in a turn for a 51 will get your attention.
The Pilots notes disagree pointing out that its stall is mild and there is little tendancy to drop into a spin.
Bill,
We agree.
Glider,
Bill is right, the P-51 suffers from unpredictable and dangerous stalls in high G turns. Unlike the FW-190 which recovers emmidiately from a stall a P-51 will often loose 9,000 - 10,000 ft in a spin.
Soren - My experience in the 'abrupt and nearly unpredictable' stall was with the low speed turning stall. The high speed stall in high G turns gives you plenty of warning and notice. The 51 controls get stiffer at high speed but still very nice at 400mph..
The FW-190 has a very predictable stall if the ailerons are correctly adjusted, something which clearly demonstrated with EB-104 and the Dora tested by the USAAF:
From RAE report (G3 Jabo):
G. Stalls Stall Warning.
The airplane has a gentle stall and controls remain effective up to the stall. Adequate warning of the stall is given by shaking of the airplane and controls.
Same with 51
From post war USAAF report (Dora):
The above agrees completely with what LW veterans say.
Eric Brown notes the aileron reversal which in itself is a clear sign of ill adjusted ailerons, and so is the unpredictable stall as proper adjustment would ensure ample warning of a stall. The waaay premature stalling speed of the airplane at 127 mph is also yet another clear indication of ill adjusted ailerons.
I agree Bill, the only difference would be the nasty spin the P-51 has a habbit of entering, quite a few -51 pilots have lost their lives to this, one very recently.
Bottom line however is, the FW190 P-51 both give plenty of warning of a stall.
There have been 2 spin stall P-51 accidents in the past 10 years, the last two in Hampstead, NC in November of 2000, the other in Urbana, IN in Feb. 2003. In the first accident the pilot was taking off and stalled, spun when turning crosswind - the NTSB attributed that to the pilot not maintaining a speed above Vso on takeoff. In reading the NTSB report it seems the pilot was "shoving" the aircraft into the air as he lifted off within 1000'. This was confirmed by witnesses on the ground. The Second accident occurred because the pilot spun the aircraft at 1,500 feet AGL. He was seen doing low altitude aerobatics by several witnesses. According to the NTSB report the POH for this aircraft allowed power off spins only if they are started above 12,000 feet.quite a few -51 pilots have lost their lives to this, one very recently.
Soren,
Can I ask where you get the information that the Laminar airfoils in a P51 would means sharp and unpredictable stalls in high G turns.
There have been 2 spin stall P-51 accidents in the past 10 years, the last two in Hampstead, NC in November of 2000, the other in Urbana, IN in Feb. 2003. In the first accident the pilot was taking off and stalled, spun when turning crosswind - the NTSB attributed that to the pilot not maintaining a speed above Vso on takeoff. In reading the NTSB report it seems the pilot was "shoving" the aircraft into the air as he lifted off within 1000'. This was confirmed by witnesses on the ground. The Second accident occurred because the pilot spun the aircraft at 1,500 feet AGL. He was seen doing low altitude aerobatics by several witnesses. According to the NTSB report the POH for this aircraft allowed power off spins only if they are started above 12,000 feet.
In both cases this seems to be attributed to pilot error and not the fault of any characteristic of the aircraft.
The High 'G' stall characteristics of the Fw-190 were caused by the wings warping which resulted in eliptical lift distribution. Correct? Similar to laminar flow wings eliptical wings have sudden stalls as the wing tends to stall "all at once" along the entire span.
However this was not as pronounced on a/c with semi-eliptical wings such as the P-47 with an eliptical trailing edge and a straight leading edge. (unlike the Spitfire which had a near fully eliptical wing, the He 112 even moreso)
The P-51's wing though wasn't a "true" laminar flow airfoil iirc as it was adjusted to be a semi-laminar flow type with the chord farther foreward than 50% (closer to 35%) with a being a compromise between low drag and stall characteristcs. Iv'e read on this on here (on the forum) but haven't seen many sourses though.
It had a lower CL than classical airfoils with some camber but it DID delay boundary layer separation over those comparative airfoils
Not so much effectiveness, more comfort than anything else, but in principal they worked the same way and the net result was probably the same as well.Just because the WWII G-suit used the same mechanism as Korea/Vietnam/Modern suits doesn't necessarily mean they will be as effective or efficient in operation.
That said, does anyone have figures or knoledge on the effectiveness of the G-suits in question?