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Predicted and tested performance of durable TPS (1992)

Shideler, John L.

In: CASI

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Publication Date: 2013-08-31

Description: The development of thermal protection systems (TPS) for aerospace vehicles involves combining material selection, concept design, and verification tests to evaluate the effectiveness of the system. The present paper reviews verification tests of two metallic and one carbon-carbon thermal protection system. The test conditions are, in general, representative of Space Shuttle design flight conditions which may be more or less severe than conditions required for future space transportation systems. The results of this study are intended to help establish a preliminary data base from which the designers of future entry vehicles can evaluate the applicability of future concepts to their vehicles.

Keywords: COMPOSITE MATERIALS

Type: Current Technology for Thermal Protection Systems; p 97-129

Format: application/pdf

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2

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Thermal and structural tests of Rene 41 honeycomb integral-tank concept for future space transportation systems (1992)

Fields, Roger A. ; Gong, Leslie ; Reardon, Lawrence F. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Two flat 12 by 72 inch Rene 41 honeycomb sandwich panels were tested in a manner to produce combined thermal and mechanical longitudinal stresses that simulated those that would occur in a larger, more complex integral tank and fuselage structure of an earth to orbit vehicle. Elastic strains measured at temperatures below 400 F are compared with calculated values obtained from a linear elastic finite element analysis to verify the analytical model and to establish confidence in the calculated strains. Elastic strain measurement at higher temperatures (between 600 F and 1400 F), where strain measurement is more difficult and less certain, are also compared with calculated strains. Agreement between measured and calculated strains for the lower temperatures is good, but agreement for the higher temperatures is poor because of unreliable strain measurements. Test results indicate that an ascent and entry life cycle of 500 is attainable under high combined thermal and mechanical elastic strains.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TP-3145 , L-16752 , NAS 1.60:3145

Format: application/pdf

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3

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Multiwall/RSI concept for local application to space shuttle body flap (1985)

Webb, Granville L. ; Sawyer, James Wayne ; Shideler, John L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A titanium multiwall/reusable surface insulation (MW/RSI) TPS concept designed to prevent local erosion of the RSI tiles on the upper surface of the Space Shuttle Orbiter body flap was investigated. The concept, which consisted of a combination of a titanium multiwall tile and an RSI tile, was evaluated by thermal analysis and structural and thermal testing of one configuration to assess the attachment scheme and thermal behavior. Results indicate that the MW/RSI concept will remain attached to the vehicle and provide the required thermal protection.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TM-87589 , NAS 1.15:87589

Format: application/pdf

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4

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Static and aerothermal tests of a superalloy honeycomb prepackaged thermal protection system (1993)

Shideler, John L. ; Gorton, Mark P. ; Webb, Granville L.

In: CASI

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Publication Date: 2019-06-28

Description: A reusable metallic thermal protection system has been developed for vehicles with maximum surface temperatures of up to 2000 F. An array of two 12- by 12-in. panels was subjected to radiant heating tests that simulated Space Shuttle entry temperature and pressure histories. Results indicate that this thermal protection system, with a mass of 2.201 lbm/ft(exp 2), can successfully prevent typical aluminum primary structure of an entry vehicle like the Space Shuttle from exceeding temperatures greater than 350 F at a location on the vehicle where the maximum surface temperature is 1900 F. A flat array of 20 panels was exposed to aerothermal flow conditions, at a Mach number of 6.75. The panels were installed in a worst-case orientation with the gaps between panels parallel to the flow. Results from the aerothermal tests indicated that convective heating occurred from hot gas flow in the gaps between the panels. Proposed design changes to prevent gap heating occurred from hot gas flow in the gaps between the panels. Proposed design changes to prevent gap heating include orienting panels so that gaps are not parallel to the flow and using a packaged, compressible gap-filler material between panels to block hot gas flow in the gaps.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TP-3257 , L-17084 , NAS 1.60:3257

Format: application/pdf

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5

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Buckling characteristics of hypersonic aircraft wing tubular panels (1986)

Shideler, John L. ; Ko, William L. ; Fields, Roger A.

In: CASI

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Publication Date: 2019-06-28

Description: The buckling characteristics of Rene 41 tubular panels installed as wing panels on a hypersonic wing test structure (HWTS) were determined nondestructively through use of a force/stiffness technique. The nondestructive buckling tests were carried out under different combined load conditions and different temperature environments. Two panels were subsequently tested to buckling failure in a universal tension compression testing machine. In spite of some data scattering because of large extrapolations of data points resulting from termination of the test at a somewhat low applied load, the overall test data correlated fairly well with theoretically predicted buckling interaction curves. The structural efficiency of the tubular panels was slightly higher than that of the beaded panels which they replaced.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-87756 , L-16128 , NAS 1.15:87756

Format: application/pdf

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