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Atomic oxygen effects on boron nitride and silicon nitride: A comparison of ground based and space flight data (1990)

Smith, C. A. ; Whatley, W. J. ; Lan, E. H. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The effects of atomic oxygen on boron nitride (BN) and silicon nitride (Si3N4) were evaluated in a low Earth orbit (LEO) flight experiment and in a ground based simulation facility. In both the inflight and ground based experiments, these materials were coated on thin (approx. 250A) silver films, and the electrical resistance of the silver was measured in situ to detect any penetration of atomic oxygen through the BN and Si3N4 materials. In the presence of atomic oxygen, silver oxidizes to form silver oxide, which has a much higher electrical resistance than pure silver. Permeation of atomic oxygen through BN, as indicated by an increase in the electrical resistance of the silver underneath, was observed in both the inflight and ground based experiments. In contrast, no permeation of atomic oxygen through Si3N4 was observed in either the inflight or ground based experiments. The ground based results show good qualitative correlation with the LEO flight results, indicating that ground based facilities such as the one at Los Alamos National Lab can reproduce space flight data from LEO.

Keywords: NONMETALLIC MATERIALS

Type: NASA, Goddard Space Flight Center, 16th Space Simulation Conference Confirming Spaceworthiness Into the Next Millennium; p 249-258

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Inflight resistance measurement on high-T(sub c) superconducting thin films exposed to orbital atomic oxygen on CONCAP-2 (STS-46) (1995)

Nerren, P. D. ; Gregory, J. C. ; Kwok, Hoi ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: In 1992, UAH (University of Alabama in Huntsville) conducted a unique experiment on STS-46 in which YBa2Cu3O7 (commonly known as '1-2-3' superconductor) high-T(c) superconducting thin film samples prepared at three different laboratories were exposed to 5 eV atomic oxygen in low Earth orbit on the ambient and 320 C hot plate during the first flight of the CONCAP-2 (Complex Autonomous Payload) experiment carrier. The resistance of the thin films was measured in flight during the atomic oxygen exposure and heating cycle. Superconducting properties were measured in the laboratory before and after the flight by the individual experimenters. Films with good superconducting properties, and which were exposed to the oxygen flux, survived the flight including those heated to 320 C (600 K) with properties essentially unchanged, while other samples which were heated but not exposed to oxygen were degraded. The properties of other flight controls held at ambient temperature appear unchanged and indistinguishable from those of ground controls, whether exposed to oxygen or not.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. Third Post-Retrieval Symposium, Part 3; p 971-988

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Hyperthermal atomic oxygen reactions with kapton and polyethylene (1990)

Edgell, M. J. ; Cross, J. B. ; Koontz, S. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Gas phase reaction products produced by the interaction of high kinetic energy (1-3 eV) 3p ground state atomic oxygen (AO) with polyethylene and kapton were found to be H2, H2O, CO, and CO2 with NO being a possible secondary product from kapton. Hydrogen abstraction at high AO kinetic energy is postulated to be the key reaction controlling the erosion rate of kapton and polyethylene. An Arrhenius-like expression having an activation barrier of 0.4 eV can be fit to the data, which suggests that the rate limiting step in the AO/kapton reaction mechanism can be overcome by translational energy.

Keywords: NONMETALLIC MATERIALS

Type: Annual Meeting of the Minerals, Metals, and Materials Society; Feb 17, 1990 - Feb 22, 1990; Anaheim, CA; United States

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MoS2 interactions with 1.5 eV atomic oxygen (1989)

Pope, L. E. ; Martin, J. A. ; Cross, J. B.

In: Other Sources

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Publication Date: 2019-07-13

Description: Exposures of MoS2 to 1.5-eV atomic oxygen in an anhydrous environment reveal that the degree of oxidation is essentially independent of crystallite orientation, and that the surface-adsorbed reaction products are MoO3 and MoO2. A mixture of oxides and sulfide exists over a depth of about 90 A, and this layer has a low diffusion rate for oxygen. It is concluded that a protective oxide layer forms on MoS2 on exposure to the atomic-oxygen-rich environment of LEO.

Keywords: NONMETALLIC MATERIALS

Type: New Materials Approaches to Tribology: Theory and Applications Symposium; Nov 29, 1988 - Dec 02, 1988; Boston, MA; United States

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