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Carbon-carbon thermal doublers for spacecraft

Rawal, S.P. / Rasbach, C. / Shih, Wei

Lockheed-Martin conducted extensive material trade studies, and identified a low-modulus carbon-carbon composite as an optimal material for thermal doublers for spacecraft. It provides the best combination of low density, low elastic modulus, low coefficient of thermal expansion (CTE), and high thermal conductivity. The typical properties of C-C thermal doublers are discussed, and the results of thermal performance testing that enabled their insertion into spacecraft are reported.

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Carbon-carbon thermal doublers for spacecraft

Rawal, S.P. / Rasbach, C. / Shih, Wei

Lockheed-Martin conducted extensive material trade studies, and identified a low-modulus carbon-carbon composite as an optimal material for thermal doublers for spacecraft. It provides the best combination of low density, low elastic modulus, low coefficient of thermal expansion (CTE), and high thermal conductivity. The typical properties of C-C thermal doublers are discussed, and the results of thermal performance testing that enabled their insertion into spacecraft are reported.

Carbon-carbon thermal doublers for spacecraft

Rawal, S.P. / Rasbach, C. / Shih, Wei

Lockheed-Martin conducted extensive material trade studies, and identified a low-modulus carbon-carbon composite as an optimal material for thermal doublers for spacecraft. It provides the best combination of low density, low elastic modulus, low coefficient of thermal expansion (CTE), and high thermal conductivity. The typical properties of C-C thermal doublers are discussed, and the results of thermal performance testing that enabled their insertion into spacecraft are reported.

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Titel:

Carbon-carbon thermal doublers for spacecraft

Beteiligte:

Rawal, S.P. (Autor:in) / Rasbach, C. (Autor:in) / Shih, Wei (Autor:in)

Erschienen in:

Advanced Materials & Processes ; 157 ; 71-73

Erscheinungsdatum:

2000

Format / Umfang:

3 Seiten

ISSN:

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Raumfahrzeug , Elastizitätsmodul , Wärmeausdehnung , Wärmeleitfähigkeit , Festkörper , Zugfestigkeit , Scherfestigkeit , Druckfestigkeit , Dichte (Masse) , thermischer Ausdehnungskoeffizient , Anwendung in der Luft- und Raumfahrt , carbonfaserverstärkter Kohlenstoff

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