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Mechanical and physical evaluation of new carbon fibre/peek composites for space applications / J. P. Kilroy in SAMPE JOURNAL, Vol. 44, N° 3 (05-06/2008)
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Titre : Mechanical and physical evaluation of new carbon fibre/peek composites for space applications Type de document : texte imprimé Auteurs : J. P. Kilroy, Auteur ; C. M. O' Brádaigh, Auteur ; C. O. A. Semprimoschnig, Auteur Année de publication : 2008 Article en page(s) : p. 22-34 Note générale : Bibliogr. Langues : Américain (ame) Index. décimale : 668.4 Plastiques, vinyles Résumé : The European Space Agency is currently examining various composite systems for the fabrication fot the large composite structures like the liquid hydrogen tanks for Re-usable Lanch Vehicles (RLVs). In this body of work, the suitability of carbon fibre/PEEK, a high performance thermoplastic composite, was examined for space applications. A new form of carbon fibre/PEEK pre-impregnated tape is now industrially available with mechanical properties expected to equal or surpass those of existing suppliers. The main aim of this project was to thermomechanically characterise the new form of carbon fibre/PEEK for space applications under pressure formed autoclaved conditions, and to compare against properties achieved using the most suitable out of autoclave technology for large space structures. Thermoplastic in-situ automated tape placement (ATP) was chosen as the out autoclave technique having most potential for the fabrication of large composite structures. Comprehensive mechanical testing was carried out on the carbon fibre/PEEK materials processed in order to compare the ATP mechanical properties versus the baseline autoclave properties. Laminates were manufactured using both manufacturing techniques to encompass the lay-ups that are commonly used in the aerospace industry; 0°, 0°/90°, ±45°, and quasi-isotropic configurations. Tests carried out on the materials included; tensile, compression, flexure, in-plane-shear and interlaminar shear. In order to simulate the temperature differentials present in a space environment, tests were carried out at incremental temperatures over the range of -70°C to 250°C. To simulate the affect of impact from space debris, compression after impact tests were carried out on the material. G(IC) and G(IIC) tests were carried out in order to characterise the fracture toughness of the carbon fiber/PEEK. Moisture uptake, which can contaminate and degrade space structures when in the presence of space vacuum was also analysed for both materials. Qualitative tests which were carried out following material processing included fibre volume fraction and DSC analysis. Ultimately, there may be a need to bond large composite sections together for RLV tanks. PEEK is a excellent hot melt adhesive and various donding procedures have been developed to take advantage of this. Two of these are; resistance welding using metal mesh and amorphous interlayer bonding PEI film. Laminates were bonded using both prodedures and parameters were varied in an effort to establish the optimum method of bonding for the material. Following a trade-off study between the techniques, the bonding procedure of most promise was down-selected and full scale temperature testing followed. Note de contenu : - Manufacturing of laminates
- Physical testing and results
- Mechanical testing and results
- Bonding trade-off studyEn ligne : https://drive.google.com/file/d/1vnVdKV3NxBpefv0p3LSebce0uhQxvHSj/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=23324
in SAMPE JOURNAL > Vol. 44, N° 3 (05-06/2008) . - p. 22-34[article]Réservation
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