Study of Flexible Composites for Expandable Space Structures.

机译：可膨胀空间结构柔性复合材料的研究。

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Payload volume for launch vehicles is a critical constraint that impacts spacecraft design. Deployment mechanisms, such as those used for solar arrays and antennas, are approaches that have successfully accommodated this constraint, however, providing pressurized volumes that can be packaged compactly at launch and expanded in space is still a challenge. One approach that has been under development for many years is to utilize softgoods - woven fabric for straps, cloth, and with appropriate coatings, bladders - to provide this expandable pressure vessel capability. The mechanics of woven structure is complicated by a response that is nonlinear and often nonrepeatable due to the discrete nature of the woven fiber architecture. This complexity reduces engineering confidence to reliably design and certify these structures, which increases costs due to increased requirements for system testing. The present study explores flexible composite materials systems as an alternative to the heritage softgoods approach. Materials were obtained from vendors who utilize flexible composites for non-aerospace products to determine some initial physical and mechanical properties of the materials. Uniaxial mechanical testing was performed to obtain the stress-strain response of the flexible composites and the failure behavior. A failure criterion was developed from the data, and a space habitat application was used to provide an estimate of the relative performance of flexible composites compared to the heritage softgoods approach. Initial results are promising with a 25% mass savings estimated for the flexible composite solution.

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作者
Scotti, S. J.;
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年度 2016
页码 1-27
总页数 27
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Expandable structures; Woven composites; Large space structures; Flexibility; Inflatable space structures; Payloads; Stress-strain relationships; Spacecraft structures; Space erectable structures; Materials selection;

机译：可扩展结构;机织复合材料;大空间结构;灵活性;可充气空间结构;有效载荷;应力 - 应变关系;航天器结构;空间可直立结构;材料选择;

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Study of Flexible Composites for Expandable Space Structures.

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