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Effect of space environment on space-based radar phased-array antenna (A0133) (1984)

Heuer, R. L. ; Rossi, M. L. ; Kesselman, M. ; [et al.]

In: CASI

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Publication Date: 2006-02-14

Description: Kapton polyimide film was selected as the baseline material for the Grumman spce based radar (SBR) concept. To gain the requisite confidence for long-term service durability, it is desirable to subject material specimens as well as a portion of the SBR antenna directly to the combined space environment and compare property degradation to that caused by laboratory simulation. The overall objective of this program is to evauate the effect of the space environment on polymeric materials currently being considered for the Grumman SBR Phased-Array Antenna. Degradation mechanisms caused by thermal cycling, ultraviolet and charged-particle irradiation, applied load, and high-voltage plasma interaction will be evaluated. The experiment occupies a 6-in.-deep end corner tray located on the space end of the Long Duration Exposure Facility and consists of both passive and active parts. The passive part addresses the effect of environment and stress on the dimensional stability spliced and continuous Kapton, both plain and reinforced. The active part will study the interaction of high voltage and low-Earth-orbit plasma.

Keywords: COMMUNICATIONS AND RADAR

Type: NASA. Langley Research Center Long Duration Exposure Facility (LDEF); p 21-23

Format: text

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2

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Effects of the space environment on space-based radar phased-array antenna; status and preliminary observations (LDEF Experiment A0133) (1992)

Rooney, W. D. ; Whiteside, J. B. ; Schulte, R. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: The overall objective of the experiment was to evaluate the effect of the space environment on components considered for a Space-Based Radar (SBR) Phased-Array Antenna. Of primary interest was a study of the degradation of the polyimide film Kapton (DuPont trademark), the material considered for use in the antenna plane. The most striking result of the experiment was the overall good condition of the Kapton antenna planes and Kapton tensile specimens, despite nearly six years of exposure to the space environment. This was largely attributable to the orientation of the Kapton (parallel and flush on the space end) and the stability of the Long Duration Exposure Facility (LDEF) in orbit. However, weathering of exposed Kapton surfaces was not insignificant. Results on elongation and mechanical properties of the plain and the fiberglass-reinforced Kapton are presented. Reduction in strain to failure of flight-exposed Kapton is attributed to surface defects of these specimens. Physical property testing of the materials to date reveals no significant difference between flight-exposed and control material. The second objective was to investigate the interaction between high-voltage electrodes and typical spacecraft contaminants in simulation of discharge triggering across differentially charged dielectric surfaces (spacecraft charging conditions). Electronic data acquisition and memory systems appeared to operate correctly, but very few discharges were recorded. Induced radioactivity, contamination, impacts, and orientation features of atomic oxygen erosion were observed.

Keywords: NONMETALLIC MATERIALS

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. First Post-Retrieval Symposium, Part 3; p 1227-1240

Format: text

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Effects of space environment on space-based radar phased-array antenna: Status and preliminary observations (1991)

Kamykowski, E. ; Stauber, Michael C. ; Heuer, R. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Description: The overall objective is to evaluate the effect of the space environment on Kapton films considered for the Grumman space based radar (SBR) phased-array antenna. The most striking result is the overall good condition of the Kapton antenna planes and Kapton tensile specimens. This is largely attributable to the orientation of the Kapton (parallel and flush on the space end) and the stability of the LDEF in orbit. Results on elongation and mechanical properties of the plain and fiberglass reinforced Kapton will be described. Stress-dependent permanent deformation and some reductions in strain to failure were observed. Physical property testing of the materials is in progress. Electronic data acquisition and memory systems appeared to operate correctly, but functional tests were not yet performed. An evaluation of the high voltage-plasma interaction data is underway. Some minor systems anomalies (e.g., fastener sheared during removal, strong odor inside electronics container) were noted. Other observations such as radiation, contamination, impacts, and orientation features of atomic oxygen erosion are reported.

Keywords: COMMUNICATIONS AND RADAR

Type: NASA, Langley Research Center, First LDEF Post-Retrieval Symposium Abstracts; p 117

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The role of the Long Duration Exposure Facility in the design of the Space Station Freedom (1990)

Little, S. A. ; Whiteside, J. B. ; Kinard, W. H.

In: Other Sources

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Publication Date: 2019-06-28

Description: The Long Duration Exposure Facility (LDEF) satellite retrieved this year by the U.S. Space Shuttle offers spacecraft designers an unprecedented opportunity to examine synergistic, long-term space environmental effects on systems and materials. This paper discusses the strategy for data development and the role its implementation will play in the design of the Space Station Freedom. Examples are provided from three key areas (environments definition, protection of external surfaces, and verification of system components) to illustrate LDEF's potential contribution.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: IAF PAPER 90-080

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