四种镜面材料尺寸稳定性的精密测量。

B Justice
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引用次数: 13

摘要

现在有几种玻璃和玻璃陶瓷的热膨胀系数很低,有些接近于零。由于这个原因,它们经常作为轨道上巨大镜子的基底。为了使这样的镜子享受5年或更长时间的有限衍射服务寿命,衬底必须尺寸稳定,从而保持原始图形。1967年初,国家标准局和康宁玻璃厂决定共同努力,在一段时间内测量这种材料的小样本的长度。这些测量于1971年完成。所选四种材料的平均长度变化(百万分之一)如下:康宁代码9623玻璃陶瓷- 0.30康宁代码7971硅酸钛- 0.37康宁代码7940玻璃硅- 0.47康宁代码9622玻璃陶瓷- 1.03。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Precision Measurements of the Dimensional Stability of Four Mirror Materials.

There are several glasses and glass-ceramics available today which have low coefficients of thermal expansion - some near zero. For this reason they often serve as substrates for massive mirrors in orbit. In order for such a mirror to enjoy a lifetime of 5 years or more of diffraction-limited service, the substrate must be dimensionally stable and thereby preserve the original figure. Early in l967, it was decided that the National Bureau of Standards and Corning Glass Works would undertake a joint effort to measure the lengths of small samples of such materials over a period of years. These measurements were completed in 1971. The average length changes in parts per million of the four materials selected are as follows: Corning Code 9623 a glass ceramic- 0.30Corning Code 7971 a titanium silicate- 0.37Corning Code 7940 a vitreous silica- 0.47Corning Code 9622 a glass-ceramic- 1.03.

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