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Mars environmental survey probe aerobrake preliminary design study (1993)

Chargin, M. ; Hamm, K. ; Papadopoulos, P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 30; 4; p. 431-437.

Format: text

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2

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MESUR probe aerobrake preliminary design study (1992)

Tauber, M. ; Yang, L. ; Henline, W. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Aerobrake design for the Mars Environmental Survey (MESUR) vehicles is considered which is intended for both a nominal entry velocity of 7 km/sec and a high-speed case of 9 km/sec. Topics discussed include the entry environment, the thermal protection requirements for several types of heat shield materials, the structural design of the aeroshell, and the total aerobrake masses and mass fractions. For the nominal 7 km/sec entry, a silicone elastometric charring ablator, SLA-561, was found to be the lightest heat shield material. For the 7 km/sec entry, the mass fraction of the aerobrake was 13.2 percent. For the 9 km/sec entry, the heat shield consisted of the medium-density ablator AVCOAT-5026; SLA-561 was used on part of the conical skirt. The aerobrake mass fraction in this case was 18 percent. It is recommended that separate aerobrakes be designed for probes entering at 7 and 9 km/sec.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: AIAA PAPER 92-2952

Format: text

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3

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Aerobrake design studies for manned Mars missions (1991)

Chargin, M. ; Miura, H. ; Yang, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The dimensions of aerobrakes and associated heat shields are calculated as a fraction of the vehicle mass required for a high-velocity manned Mars entry. The entry speed and deceleration limit are assumed to be 8.6 km/sec and 5 earth g, respectively, to consider vehicles with low lift-drag ratio (L/D) and ballistic coefficients of 100 and 200 kg/sq m, as well as a vehicle with a medium L/D and a ballistic coefficient of 375 kg/sq m. The aerobrake mass plus the heat shield divided by an optimized, blunt-shaped vehicle's total mass is 15 and 13 percent for ballistic coefficients of 100 and 200 kg/sq m, respectively. For a winged vehicle the mass fraction is 17 percent because the higher ballistic coefficient requires more thermal protection to account for the greater temperatures generated. It is concluded that aerobraking is more efficient than propulsive braking because the mass fraction for a propulsive system would be 4 or 5 times greater than those calculated for aerobraking.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: AIAA PAPER 91-1344

Format: text

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4

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Supporting flight data analysis for Space Shuttle Orbiter experiments at NASA Ames Research Center (1983)

Budnick, M. P. ; Green, M. J. ; Yang, L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The space shuttle orbiter experiments program is responsible for collecting flight data to extend the research and technology base for future aerospace vehicle design. The infrared imagery of shuttle (IRIS), catalytic surface effects, and tile gap heating experiments sponsored by Ames Research Center are part of this program. The software required to process the flight data which support these experiments is described. In addition, data analysis techniques, developed in support of the IRIS experiment, are discussed. Using the flight data base, the techniques provide information useful in analyzing and correcting problems with the experiment, and in interpreting the IRIS image obtained during the entry of the third shuttle mission.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TM-84345 , A-9289 , NAS 1.15:84345

Format: application/pdf

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