Crashworthy Design of Military Rotorcraft Presented by: Dr. Akif Bolukbasi Senior Technical Fellow...
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Transcript of Crashworthy Design of Military Rotorcraft Presented by: Dr. Akif Bolukbasi Senior Technical Fellow...
![Page 1: Crashworthy Design of Military Rotorcraft Presented by: Dr. Akif Bolukbasi Senior Technical Fellow Phone: (480) 891-5111 E-mail: akif.o.bolukbasi@boeing.com.](https://reader035.fdocuments.in/reader035/viewer/2022062315/5697c0141a28abf838ccd2e7/html5/thumbnails/1.jpg)
Crashworthy Design ofCrashworthy Design ofMilitary RotorcraftMilitary Rotorcraft
Presented by:Presented by:
Dr. Akif BolukbasiDr. Akif BolukbasiSenior Technical FellowSenior Technical FellowPhone: (480) 891-5111Phone: (480) 891-5111
E-mail: [email protected]: [email protected]
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Systems Approach to Crashworthy DesignSystems Approach to Crashworthy Design
Key SubsystemsKey Subsystems
• Landing GearsLanding Gears• Airframe StructureAirframe Structure• Seats & Restraint SystemsSeats & Restraint Systems• Fuel SystemsFuel Systems
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Military Rotorcraft Crash EnvironmentMilitary Rotorcraft Crash Environment
Vertical Velocity Longitudinal Velocity Impact Terrain
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Military Rotorcraft Crashworthiness Design CriteriaMilitary Rotorcraft Crashworthiness Design Criteria(MIL-STD-1290)(MIL-STD-1290)
Condition Number
Impact Direction(Aircraft Axes)
Velocity ChangeΔ ( / )V ft sec
ObjectImpacted
1 Longitudinal( )cockpit
20
2 Longitudinal( )cabin
40RigidVerticalBarriers
3 *Vertical 424 , **Lateral Type I 255 , ***Lateral Type II 30
RigidHorizontalBarriers
6 *Combined high angleVertical
Longitudinal4227
RigidHorizontalSurface
7 Combined low angleVertical
Longitudinal14100
PlowedSoil
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Military Rotorcraft Crashworthiness Design CriteriaMilitary Rotorcraft Crashworthiness Design Criteria(Performance Requirements)(Performance Requirements)
ConditionNumber
ImpactDirection
Percentage VolumeReduction
OtherRequirements
1 Longitudinal(Cockpit)
No serious hazard topilot/copilot
Does not impedepost-crash egress.Engine, transmission,and rotor systemintact and in place
2 Longitudinal(Cabin)
15% maximum lengthreduction forpassenger/troopcompartment
Inward buckling ofside walls should notpose hazard tooccupants or restricttheir evacuation
3 Vertical 15% maximum heightreduction in cockpitand passenger/troopcompartment
Acceleration loadsnot injurious
4 & 5 Lateral 15% maximumwidth reduction
Lateral collapse ofoccupied areas nothazardous, noentrapment of limbs.
6 CombinedHigh Angle
No serious hazard tooccupant due tocockpit/cabinreduction
7 CombinedLow Angle
No serious hazardto occupant
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Military Rotorcraft Crashworthiness Design CriteriaMilitary Rotorcraft Crashworthiness Design Criteria(Major Mass Item Retention Strength)(Major Mass Item Retention Strength)
(1) Applied Separately:
Longitudinal +/- 20gVertical +20g / -10gLateral +/- 18g
(2) Applied Simultaneously
Longitudinal +/- 20g +/- 10g +/- 10g Vertical +10g / -5g + 20g / -10g +10g / -5g Lateral +/- 9g +/- 9g +/- 18g
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Vertical Impact Design RequirementsVertical Impact Design Requirements
CrashCrash
• Sink rates 26 fps (civil), 42 fps (military)Sink rates 26 fps (civil), 42 fps (military)
• Damage to the fuselage and mission equipment becomes Damage to the fuselage and mission equipment becomes unavoidable. The emphasis is on protecting the occupantsunavoidable. The emphasis is on protecting the occupants from injury.from injury.
• The fuselage may undergo large deformations but should The fuselage may undergo large deformations but should maintain a livable volume for occupants.maintain a livable volume for occupants.
• Post crash fires are minimized using crashworthy fuel systems.Post crash fires are minimized using crashworthy fuel systems.
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Landing GearsLanding Gears
Normal LandingNormal Landing
• Sink Rates 8 - 10 fpsSink Rates 8 - 10 fps
• No yielding of the landing gear (military)No yielding of the landing gear (military)
Hard LandingHard Landing
• Sink rates 10 fps (civil), 20 fps (military)Sink rates 10 fps (civil), 20 fps (military)
• Emphasis on preventing fuselage and mission equipment damageEmphasis on preventing fuselage and mission equipment damage
• Plastic deformation or damage to the landing gear is acceptablePlastic deformation or damage to the landing gear is acceptable
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Effect of Roll and Pitch RequirementsEffect of Roll and Pitch Requirements
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Landing Gear TestingLanding Gear Testing
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Skid Landing GearsSkid Landing Gears
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Military Rotorcraft Crashworthiness Design CriteriaMilitary Rotorcraft Crashworthiness Design Criteria(Seats)(Seats)
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Crashworthy Seat TestingCrashworthy Seat Testing
Dynamic Test #1 (Fwd & Down) Dynamic Test #2 (Fwd & Side)
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Cost-Benefit Trade Study for Cost-Benefit Trade Study for Crashworthy Rotorcraft DesignCrashworthy Rotorcraft Design
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ConclusionsConclusions
• Airframe protective shell to maintain livable volume.
• Adequate tie-down strength for occupants, cargo, and other heavy mass items.
• Non-injurious occupant acceleration environment.
• Delethalized interior to eliminate occupant secondary strike hazards.
• Elimination or delay of post-crash fire.
• Adequate emergency escape and rescue provisions.