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  • 2005-2009  (2)
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  • 2005-2009  (2)
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  • 1
    Online Resource
    Online Resource
    Space Environment Exposure of Polymer Films on the Materials International Space Station Experiment: Results from MISSE 1 and MISSE 2
    SAGE Publications ; 2008
    In:  High Performance Polymers Vol. 20, No. 4-5 ( 2008-08), p. 371-387
    Details
    In: High Performance Polymers, SAGE Publications, Vol. 20, No. 4-5 ( 2008-08), p. 371-387
    Abstract: A total of thirty-one samples were included in the National Aeronautics and Space Administration (NASA) Glenn Research Center (GRC) Polymer Film Thermal Control (PFTC) and Gossamer Materials experiments, which were exposed to the low Earth orbit environment for nearly 4 years on the exterior of the International Space Station (ISS) as part of the Materials International Space Station Experiment (MISSE 1 and MISSE 2). This paper describes objectives, materials, and characterizations for the MISSE 1 and MISSE 2 GRC PFTC and Gossamer Materials samples. Samples included films of polyimides, fluorinated polyimides, and Teflon® fluorinated ethylene propylene (FEP) with and without second-surface metalized layers and/or surface coatings. Films of polyphenylene benzobisoxazole (PBO) and a polyarylene ether benzimidazole (TOR-LM TM ) were also included. Polymer film samples were examined post-flight for changes in mechanical and optical properties. The environment in which the samples were located was characterized through analysis of sapphire contamination witness samples and samples dedicated to atomic oxygen (AO) erosion measurements. Results of the analyses of the PFTC and Gossamer Materials experiments are discussed.
    Type of Medium: Online Resource
    ISSN: 0954-0083 , 1361-6412
    URL: Article
    DOI: 10.1177/0954008308089704
    Language: English
    Publisher: SAGE Publications
    Publication Date: 2008
    detail.hit.zdb_id: 1483713-4
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  • 2
    Online Resource
    Online Resource
    Damage Tolerance in Naturally Compliant Structures
    SAGE Publications ; 2005
    In:  International Journal of Damage Mechanics Vol. 14, No. 4 ( 2005-10), p. 365-384
    Details
    In: International Journal of Damage Mechanics, SAGE Publications, Vol. 14, No. 4 ( 2005-10), p. 365-384
    Abstract: In this study, the damage tolerant design in a particular compliant structure, the spider web, has been studied. The orb web spider has evolved over the last 180 million years. This long period of evolution has made the present spider web, an elegant, natural, lightweight structure that efficiently resists different loads, such as wind and insect impact. It can function as a net for catching prey even if several elements are broken. Nature has accomplished these tasks by optimizing its form of construction, and by making spider silk a biopolymer with superior elasticity and tensile strength. Spider webs are clearly one of the most efficient structures engineered by nature. In this study, we attempt to understand how the spider web achieves its damage tolerance. A finite element (FE) model of an ideal spider web has been created using the FEMAP pre- and post-processing software and analyzed using the ABAQUS nonlinear FE code. Both the static and dynamic problems have been considered, and experimental validation has also been performed. How stress is redistributed in the face of damage and how the loss of web elements affects the dynamic response of the web have been considered. Finally, the numerical simulations have been compared to physical experiments. Instead of actual spider webs, artificial nets have been examined; the first natural frequencies for different damage configurations have been measured by laser vibrometer. A FE model of the net has also been created in FEMAP and analyzed by ABAQUS. In both analyses, the same elements have been removed systematically from the center of the web and the first natural frequencies have been determined. The prediction matches well with the experiment. The results of this study may give insight into other ultra-lightweight structures, such as cable-stayed bridges and gossamer space structures.
    Type of Medium: Online Resource
    ISSN: 1056-7895 , 1530-7921
    URL: Article
    DOI: 10.1177/1056789505054313
    Language: English
    Publisher: SAGE Publications
    Publication Date: 2005
    detail.hit.zdb_id: 2052623-4
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