反射镜无热装配中胶层厚度的计算及控制

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Abstract. To achieve the athermal mount of remote sensor reflectors, the calculation and controlling methods of the adhesive layer thickness for a reflector in athermal mount was researched. Firstly, the methods to calculate the adhesive layer thickness for athermal mount in engineering applications were introduced, the several kinds of controlling processes of layer thickness for the reflector was described and the advantages, disadvantages and limitations of each method were analyzed in detail. Based on the analysis of the problem of the layer thickness control process, the hollow glass beads with differ- ent diameter sizes were used to control the layer thickness. A tensile test was performed to prove that the optical epoxy glue added hollow glass beads has improved the mechanical properties by 20% than the pure optical epoxy glue. The experiment shows that the adhesive process method by using the hollow glass beads to ensure the layer thickness can provide a good surface figure for the reflector, which meets the requirements of lens stress-free mount. The method has been used in engineering projects.摘要：为了实现空间遥感器反射镜无热装配，对反射镜粘接镶嵌件时胶层厚度的计算及控制胶粘厚度的方法进行了研究。首先介绍了工程中常用的计算反射镜无热装配胶层厚度的方法及胶层厚度控制工艺，主要描述了工装保证法、精密测量法和工装测量结合法，给出了各种方法的优缺点及局限性。针对目前胶粘工艺控制胶层厚度存在的问题，提出采用具有不同直径规格的空心玻璃微珠来控制胶层厚度的方法。拉伸试验验证了添加了空心玻璃微珠的光学环氧胶比纯光学环氧胶的力学性能提升了20％；利用平面反射镜粘接镶嵌件的试验表明，依靠填充空心玻璃微珠保证胶层厚度的胶粘工艺方法能够保持反射镜面形值，同时证明了胶层计算方法可以应用于空心玻璃珠的直径选择。提出的胶层厚度计算方法及玻璃微珠胶粘工艺可以实现反射镜无热装配，目前已应用于某在研项目。