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Aero Engineering 315 Lesson 30 Turn Performance
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“Turning” the tables…
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Turn Performance Overview Define bank angle and load factor Calculate load factor needed to sustain a level turn at a given bank angle Calculate initial turn rate and radius for level turns, pull-ups and pull downs
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Turn Performance Definitions Load factor – Lift/Weight (measured in g’s) n = L/W Bank angle () – angle created by rotating the aircraft about the aircraft reference line Turn rate () – radians/second or degrees/second Turn radius ( r ) – feet L W
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Level Turns Level flight means constant altitude (no vertical acceleration) In level flight, bank angle creates a specific load Example: level turn at = 60° n = 1/cos 60° = 2 L cos L sin
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Level Turn Load Factor If bank angle is known, you can find load factor and vice versa for a level turn In a level turn: Bank Angle Level Turn Load Factor 0 2 4 6 1020304050607080
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Level Turns Constant velocity turn Stall speed in a turn: Stall speed increases as n ½ Extra pilot care when performing high bank angle turns near the ground L cos W L sin r L = nW = C LMAX V STALL S/2 2 V STALL = 2nW C LMAX S L = nW
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Level Turn Performance Concepts For good turn performance we want: Small turn radius High turn rate To achieve this we should turn with Low velocity High load factor Note: Turn radius and rate are functions only of velocity and load factor. A B-52 and an F-16 at the same airspeed and “g” have identical turn radii and rates.
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To get small turn radius ( r ) and large turn rate () Maximize “g” loading Structural considerations (max g for the structure) Physiological considerations (human g limits) Aerodynamic considerations (stall limitations) Minimize wing loading, W/S ( n = C L q S / W ) Maximize lift coefficient High lift devices Pitch vectored thrust Maximize thrust-to-weight ratio (T/W) High “g” creates very high induced drag Level Turn Design Considerations
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F-16 Turn Performance Limits* *F-16 COMBAT AIRCRAFT FUNDAMENTALS, page 46 Stall limits Human/aircraft structural limits Aeroelastic limits
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Homework #36 An SR-71 is in a 20° banked level turn at Mach 3.0 and an altitude of 80,000 ft. Assume the ambient temperature is 390°R. a. What is the aircraft’s turn radius in NM? b. What is the aircraft’s turn rate in deg/s? c. If the pilot increases the bank angle to 45° while maintaining a level turn at Mach 3.0, what would the new turn radius be in NM? What would happen to the aircraft load factor?
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SR-71 Mach 3 80,000 ft 20 o bank r = 118 nm 10 o bank r = 244 nm 45 o bank r = 43 nm
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Vertical turns (loops) WV 2 g r F R = = L -W = V/r = g(n-1) V WV 2 g r F R = = L = V/r = g n V WV 2 g r F R = = L +W = V/r = g(n+1) V Pull-down Pull-up Vertical Portion
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4.0 GR 3.0 GR 5.0 GR 3.3 GR 4.7 GR r = V 2 g(n+1) r = V 2 g(n-1) r = V 2 gn r = V 2 gn GR = denominator term in g’s
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Next Lesson (31)… Prior to class Read text 5.12 Complete homework #36-37 All sections of Fighter Design Project In class Discuss V-n diagrams
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