Nonconventional ultra-precision manufacturing of ULE mirror surfaces using atmospheric reactive plasma jets

T. Arnold, G. Böhm, H. Paetzelt
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引用次数: 10

Abstract

In this paper we present a non-abrasive surface manufacturing technology suited for fast and efficient figuring of optical surfaces made of ULE (Corning Ultra Low Expansion) glass. Plasma Jet Machining (PJM) technology is based on an atmospheric chemical reactive plasma jet tool that locally interacts with the surface in order to remove material by chemical reactions forming volatile species. ULE has been proven to be suited for the PJM process. It has been found that the volume removal rate is approximately 25% higher than for fused silica and values up to 50mm3/min can be reached with our setup. Thus, figuring and figure error correction of large optics like mirror segments for earth based telescopes can be realized within a reasonable time. In the paper principles of the PJM process as well as ULE specific issues are discussed and machining results are presented.
利用大气反应等离子体射流非常规超精密制造ULE镜面
本文提出了一种适用于康宁超低膨胀玻璃光学表面快速高效加工的非磨料表面加工技术。等离子体射流加工(PJM)技术是基于大气化学反应等离子体射流工具,它与表面局部相互作用,通过化学反应形成挥发性物质来去除材料。ULE已被证明适用于PJM工艺。已经发现,体积去除率比熔融二氧化硅高约25%,并且可以达到50mm3/min的值。从而可以在合理的时间内实现地基望远镜镜段等大型光学元件的计算和图形误差校正。本文讨论了PJM加工的原理和ULE的具体问题,并给出了加工结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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