单晶硅抛物面镜超精密磨削工艺方法研究

Q3 Engineering

International Journal of Nanomanufacturing Pub Date : 2017-07-17 DOI:10.1504/IJNM.2017.10005599

Y. Niu, Yi-fan Dai

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引用次数: 1

摘要

单晶硅的弯曲光学在高功率激光系统中起着重要作用，其形状精度和表面下损伤（SSD）对激光系统的性能有着重要影响。为了提高磨削精度和控制固态硬盘的深度，对硅的超精密磨削工艺进行了研究。首先介绍了磨削理论，分析了切削深度、亚表面裂纹深度和单颗粒载荷之间的关系。然后通过工艺实验研究了不同工艺参数对硅表面质量的影响。根据工艺实验结果，对直径为195mm的硅抛物面反射镜进行了加工。结果表明，峰谷值的形状精度从21.4μm提高到3.77μm，粗糙度的Rms值从0.625μm提高至0.11μm。

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Study on the technological method of ultra-precision grinding for parabolic mirror of monocrystalline silicon

Curved optics of monocrystalline silicon plays an important role in high power laser system and its form accuracy and subsurface damage (SSD) have a significant impact on the performance of the laser system. In order to improve grinding accuracy and control the depth of SSD, the ultra-precision grinding (UPG) process of Si is studied. Firstly, the grinding theory is introduced and the relationships among the depth of cutting, the depth of subsurface cracks and the load of single particle are analysed. Then the influence of different process parameters on the surface quality of Si was investigated by some process experiments. Based on the result of process experiments, the processing of a 195 mm-diameter parabolic mirror of Si was carried out. The results show that the form accuracy of peak-valley value is promoted up to 3.77 μm from 21.4 μm and Rms value of the roughness is improved up to 0.11 μm from 0.625 μm.

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来源期刊

International Journal of Nanomanufacturing Engineering-Industrial and Manufacturing Engineering

CiteScore

0.60

自引率

0.00%

发文量