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Techniques for Determining the Micrwave Properties of Thermally Degraded Spacecraft Heat Shield Materials

机译：测定热降解航天器挡热板材料微波特性的技术

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Techniques for determining the microwave properties of spacecraft thermal protection materials, such as subliming ablators, charring ablators, etc., under various thermal conditions are presented. Room temperature dielectric constants and loss tangents of the materials are obtained at several frequencies using standard cavity methods. High temperature dielectric properties can be inferred from real time transmission loss measurements in an arc tunnel. The dielectric properties of cold thermally degraded materials are inferred from transmission measurements in an arc tunnel and on an antenna pattern range. An independent determination of the dielectric properties of thermally degraded materials was obtained by comparing aperture admittance measurements of a ground-plane mounted rectangular waveguide, under the ablation material, with aperture admittance calculations assuming various inhomogeneous dielectric properties. Also included, for comparison, are calculations assuming the conducting char layer is replaced by a perfectly conducting metal sheet.

机译：提出了在各种热条件下确定航天器热保护材料（例如升华烧蚀器，炭化烧蚀器等）的微波特性的技术。使用标准腔体方法，可以在几个频率下获得材料的室温介电常数和损耗角正切值。从电弧隧道中的实时传输损耗测量可以推断出高温介电性能。冷热降解材料的介电特性可从弧形隧道中和天线方向图范围内的传输测量结果中推断出来。通过比较在烧蚀材料下接地平面安装的矩形波导的孔径导纳测量结果与假设各种不均匀介电性能的孔径导纳计算结果，可以独立确定热降解材料的介电性能。为了进行比较，还包括假设导电炭层被完全导电的金属板代替的计算。

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《G-MTT International Microwave Symposium 》|1969年|p.53-58|共6页
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Gilreath M.C.; Croswell W.F.; Jones J.E.;
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中图分类微波混合集成电路（微波集成电路） ;
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机译：微波检测技术确定烧蚀屏蔽厚度和陶瓷材料性能

Techniques for Determining the Micrwave Properties of Thermally Degraded Spacecraft Heat Shield Materials

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