精磨和超精磨加工熔融硅自由曲面的实验研究

Sebastian Henkel, Christian Schulze, Samson Frank, J. Bliedtner, E. Rädlein
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摘要

光学自由曲面的制造为未来的光学方法提供了很高的潜力,因为与传统光学相比,它们可以使新的光学系统更轻、更紧凑,甚至可以实现全新的功能。然而,扩展的可能性与精密光学应用的自由曲面生产的更高复杂性齐头并进。这导致价格高,交货时间长。本文展示了一种通过(超声辅助)预磨和精磨结合使用树脂结合工具的超精磨组成的工艺链,以提高小批量、高度定制的自由曲面制造的方法。该工艺链适用于光学表面的高效制造。实验的主要重点是减少低、中空间频率的表面偏差,以及表面粗糙度。利用白光干涉测量原理,研究了熔融石英自由曲面五轴数控磨削过程中几个不同的影响因素,并观察了它们对表面形貌的影响(从表面偏差的低频到高频范围)。可以归纳出各种优化方法。
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Experimental investigations on the manufacturing of fused silica freeform surfaces by means of fine and ultra-fine grinding
The manufacturing of optical freeform surfaces offers a high potential for optical approaches in the future, since they can make new optical systems lighter and more compact or even enable completely new functions, compared to conventional optics. However, the expanded possibilities go hand in hand with higher complexity in production of freeforms for precision optical applications. This leads to high prices and long delivery times. This paper shows an approach to improve manufacturing of freeforms in small batch sizes with a high degree of customization, by a process chain consisting of (ultrasonic-assisted) pre- and fine grinding combined with ultra-fine grinding using resin bond tools. The process chain is suited for efficient fabrication of optical surfaces. A main focus of the experiments is on reduction of low- and mid-spatial frequency surface deviations, as well as surface roughness. Several different influencing factors in a 5-axis CNC grinding process of fused silica freeforms are investigated and their effects on the resulting surface topography (from the low to the high frequency range of surface deviations) are observed using white light interferometry measurement principles. Various optimization approaches can be concluded.
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