Flight and Ground Tests of a Very-low-density Elastomeric Ablative Material PDF Download
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Author: George C. Olsen Publisher: ISBN: Category : Ablation (Aerothermodynamics) Languages : en Pages : 44
Book Description
A very low density ablative material, a silicone-phenolic composite, was flight tested on a recoverable spacecraft launched by a Pacemaker vehicle system; and, in addition, it was tested in an arc heated wind tunnel at three conditions which encompassed most of the reentry heating conditions of the flight tests. The material was composed, by weight, of 71 percent phenolic spheres, 22.8 percent silicone resin, 2.2 percent catalyst, and 4 percent silica fibers. The tests were conducted to evaluate the ablator performance in both arc tunnel and flight tests and to determine the predictability of the albator performance by using computed results from an existing one-dimensional numerical analysis. The flight tested ablator experienced only moderate surface recession and retained a smooth surface except for isolated areas where the char was completely removed, probably following reentry and prior to or during recovery. Analytical results show good agreement between arc tunnel and flight test results. The thermophysical properties used in the analysis are tabulated.
Author: George C. Olsen Publisher: ISBN: Category : Ablation (Aerothermodynamics) Languages : en Pages : 44
Book Description
A very low density ablative material, a silicone-phenolic composite, was flight tested on a recoverable spacecraft launched by a Pacemaker vehicle system; and, in addition, it was tested in an arc heated wind tunnel at three conditions which encompassed most of the reentry heating conditions of the flight tests. The material was composed, by weight, of 71 percent phenolic spheres, 22.8 percent silicone resin, 2.2 percent catalyst, and 4 percent silica fibers. The tests were conducted to evaluate the ablator performance in both arc tunnel and flight tests and to determine the predictability of the albator performance by using computed results from an existing one-dimensional numerical analysis. The flight tested ablator experienced only moderate surface recession and retained a smooth surface except for isolated areas where the char was completely removed, probably following reentry and prior to or during recovery. Analytical results show good agreement between arc tunnel and flight test results. The thermophysical properties used in the analysis are tabulated.
Author: Ronald K. Clark Publisher: ISBN: Category : Ablative materials Languages : en Pages : 48
Book Description
Thermal performance data were obtained for low-density phenolic-nylon and low-density silicone resin in the 2500-kilowatt arc jet at the Langley Research Center over a range of heating rates from 10 to 242 Btu/sq ft-sec (0.113 to 2.75/sq m ) and a range of aerodynamic shear stresses from 0 to 7.2 lb/sq ft (0 to 344 N/sq m) at Jet-stream oxygen concentrations ranging from 0 to 23 percent. With use of these data, analyses were made of the relative effect of environmental parameters such as heating rate, free-stream oxygen concentration, stagnation enthalpy, and aerodynamic shear stress on the performance of these materials.
Author: George C. Olsen
Author: George C. Olsen
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Author: S. D. Williams
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Author: William D. Brewer
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Author: Ronald K. Clark
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