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  • 1
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    Helical grip for the cable cars of San Francisco (1979)
    In:  CASI
    Details
    Publication Date: 2016-06-07
    Description: A helical cable car grip to minimize high maintenance costs of San Francisco's cable car operation is presented. The grip establishes a rolling contact between the cable and grip to reduce sliding friction and associated cable wear. The design, development, and testing of the helical cable car grip are described.
    Keywords: STRUCTURAL MECHANICS
    Type: NASA. Johnson Space Center The 13th Aerospace Mech. Symp.; p 83-93
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Spacelab 4: Primate experiment support hardware (1984)
    In:  CASI
    Details
    Publication Date: 2016-06-07
    Description: A squirrel monkey feeder and automatic urine collection system were designed to fly on the Spacelab 4 Shuttle Mission presently scheduled for January 1986. Prototypes of the feeder and urine collection systems were fabricated and extensively tested on squirrel monkeys at the National Aeronautics and Space Administration's (NASA) Ames Research Center (ARC). The feeder design minimizes impact on the monkey's limited space in the cage and features improved reliability and biocompatibility over previous systems. The urine collection system is the first flight qualified, automatic urine collection device for squirrel monkeys. Flight systems are currently being fabricated.
    Keywords: INSTRUMENTATION AND PHOTOGRAPHY
    Type: The 18th Aerospace Mech. Symp.; p 215-241
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Improved Cable Grip Reduces Wear (1982)
    In:  Other Sources
    Details
    Publication Date: 2019-06-28
    Description: Improved cable grip reduces wear due to sliding friction between cable and gripping surfaces. Drive wheels are grooved with a helical pattern that meshes with the lay of cable, analogous to a worm gear. Cable is gripped between drive wheels and guide rollers, and cable pull is exerted on the grip when drive wheels are slowed by hydraulic clutches. Cable grip may be applicable to cable-operated systems, such as ore trams in mines, overhead cable cars and ski lifts.
    Keywords: MACHINERY
    Type: ARC-11318 , NASA Tech Briefs (ISSN 0145-319X); 6; 2; P. 209
    Format: text
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    NASA TECHNICAL REPORTS
  • 4
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    Rotor Design Options for Improving XV-15 Whirl-Flutter Stability Margins (2004)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Rotor design changes intended to improve tiltrotor whirl-flutter stability margins were analyzed. A baseline analytical model of the XV-15 was established, and then a thinner, composite wing was designed to be representative of a high-speed tiltrotor. The rotor blade design was modified to increase the stability speed margin for the thin-wing design. Small rearward offsets of the aerodynamic-center locus with respect to the blade elastic axis created large increases in the stability boundary. The effect was strongest for offsets at the outboard part of the blade, where an offset of the aerodynamic center by 10% of tip chord improved the stability margin by over 100 knots. Forward offsets of the blade center of gravity had similar but less pronounced effects. Equivalent results were seen for swept-tip blades. Appropriate combinations of sweep and pitch stiffness completely eliminated whirl flutter within the speed range examined; alternatively, they allowed large increases in pitch-flap coupling (delta-three) for a given stability margin. A limited investigation of the rotor loads in helicopter and airplane configuration showed only minor increases in loads.
    Keywords: Research and Support Facilities (Air)
    Type: NASA/TP-2004-212262 , AFDD/TR-04-001 , A-0309307
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 5
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    Improving Tiltrotor Whirl-Mode Stability with Rotor Design Variations (2000)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Further increases in tiltrotor speeds are limited by coupled wing/rotor whirl-mode aeroelastic instability. Increased power, thrust, and rotor efficiency are not enough: the whirl-mode stability boundary must also be improved. With current technology, very stiff, thick wings of limited aspect ratio are essential to meet the stability requirements, which severely limits cruise efficiency and maximum speed. Larger and more efficient tiltrotors will need longer and lighter wings, for which whirl-mode flutter is a serious design issue. Numerous approaches to improving the whirl-mode airspeed boundary have been investigated, including tailored stiffness wings, active stability augmentation, variable geometry rotors, highly swept tips, and at one extreme, folding rotors. The research reported herein began with the much simpler approach of adjusting the chordwise positions of the rotor blade aerodynamic center and center of gravity, effected by offsetting the airfoil quarter chord or structural mass with respect to the elastic axis. The research was recently extended to include variations in blade sweep, control system stiffness, and pitch-flap coupling (delta(sub 3)). As an introduction to the subject, and to establish a baseline against which to measure stability improvements, this report will first summarize results. The paper will then discuss more advanced studies of swept blades and control-system modifications.
    Keywords: Aircraft Design, Testing and Performance
    Type: European Rotorcraft; Sep 26, 2000 - Sep 29, 2000; The Hague; Netherlands
    Format: application/pdf
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    NASA TECHNICAL REPORTS
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