Achievement of ductile-regime removal in fabricating Gaussian curved microstructure processed by micro ball-end milling on soft-brittle KDP surface

IF 6.1 1区 工程技术 Q1 ENGINEERING, MANUFACTURING
Jian Cheng , Hongqin Lei , Yong Xiao , Linjie Zhao , Mingjun Chen , Youwang Hu , Qi Liu , Dinghuai Yang , Wenyu Ding , Guang Chen
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Abstract

Laser-induced damage points (known as defects) would seriously reduce the service life of large-aperture KDP optics in high-power laser devices. The ball-end milling procedure is recognized as an efficient method for creating a Gaussian mitigation pit (GMP) to restore the optical transmission performance of functional KDP crystals by removing defects. Nevertheless, achieving smooth and flawless Gaussian curved microstructures is a massive challenge for soft-brittle KDP crystals. Herein, a judging criterion of the ductile-regime machining for the GMP is developed by the models of uncut chip thickness (UCT) and critical milling depth. Simultaneously, the obtained judging criterion can be validated by the microstructure fabrication experiments. Besides, considering the spindle vibration, plowing effect, and machined surface texture, the influence of spindle speed (n), feed rate (f), and tool mark interval (d) on the surface formation mechanism of the GMP is analyzed, respectively. It can be discovered that the n of up to 60,000 r/min can lead to severe velocity fluctuation of the motion system, increasing the UCT and causing brittle fractures on the KDP surface. A low f can result in an undesirable plowing phenomenon, and a large number of crystal materials are accumulated in the up-cut process. Once the f reaches 72 mm/min, the tool path would fluctuate significantly, resulting in poor GMP surface texture. When the d exceeds 15 μm, the surface quality of the GMP can no longer meet the engineering requirements of the Ra ≤ 50 nm. Moreover, the optimized processing parameters of the microstructure fabrication are 47,800 r/min in the n, 30 mm/min in the f, and 5 μm in the d. This study can provide crucial guidance for obtaining the ultra-smooth and defect-free GMP processed in the ductile regime, which would resultantly possess significant theoretical importance and practical value in enhancing the optical properties of flawed KDP crystals.
在软脆 KDP 表面使用微球端铣削加工高斯曲线微结构时实现韧性消除
激光诱发的损伤点(称为缺陷)会严重缩短高功率激光设备中大孔径 KDP 光学元件的使用寿命。球端铣削程序被认为是一种有效的方法,可以通过消除缺陷来创建高斯缓和凹坑(GMP),从而恢复功能性 KDP 晶体的光学传输性能。然而,对于软脆的 KDP 晶体来说,实现光滑无瑕的高斯曲线微结构是一项巨大的挑战。本文通过未切削切屑厚度(UCT)和临界铣削深度模型,建立了 GMP 的韧性机制加工判断标准。同时,所获得的判断标准可通过微结构制造实验进行验证。此外,考虑到主轴振动、耕作效应和加工表面纹理,分别分析了主轴转速(n)、进给速度(f)和刀痕间隔(d)对 GMP 表面形成机理的影响。结果发现,当 n 高达 60,000 r/min 时,会导致运动系统的速度剧烈波动,增加 UCT,使 KDP 表面产生脆性断裂。过低的 f 会导致不良的犁耕现象,并在上切过程中积累大量晶体材料。一旦 f 达到 72 mm/min,刀具路径就会出现明显波动,导致 GMP 表面纹理不佳。当 d 超过 15 μm 时,GMP 的表面质量已无法满足 Ra ≤ 50 nm 的工程要求。此外,微结构制造的优化加工参数为 n 值 47800 r/min、f 值 30 mm/min 和 d 值 5 μm。这项研究为获得在韧性机制下加工的超光滑无缺陷 GMP 提供了重要指导,从而在提高有缺陷 KDP 晶体的光学性能方面具有重要的理论意义和实用价值。
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来源期刊
Journal of Manufacturing Processes
Journal of Manufacturing Processes ENGINEERING, MANUFACTURING-
CiteScore
10.20
自引率
11.30%
发文量
833
审稿时长
50 days
期刊介绍: The aim of the Journal of Manufacturing Processes (JMP) is to exchange current and future directions of manufacturing processes research, development and implementation, and to publish archival scholarly literature with a view to advancing state-of-the-art manufacturing processes and encouraging innovation for developing new and efficient processes. The journal will also publish from other research communities for rapid communication of innovative new concepts. Special-topic issues on emerging technologies and invited papers will also be published.
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