为了避免使用切削液及其相应清洗工艺对KDP晶体表面产生雾化、引入杂质等降低晶体抗激光损伤阈值的不利因素,采用干切削技术对KDP晶体进行超精密切削.在干切削KDP晶体工艺中所遇到的难点是切削屑片易粘附已加工表面,由此产生屑片粘附点难清洗、易雾化等问题.本文提出了基于真空抽屑装置干切削KDP晶体的新工艺,重点解决了干切削工艺下KDP晶体表面粘屑现象,实现了无需清洗、无杂质的加工表面.在选择延性域切削参数条件下,取得了表面粗糙度为2.69 nm(Ra)的无粘屑、超光滑表面.
参考文献
[1] | 王景贺,陈明君,董申,尚元江.KDP晶体光学零件超精密加工技术研究的新进展[J].工具技术,2004(09):56-59. |
[2] | 曹先锁,吴东江,王奔,高航,康仁科.KDP晶体各向异性力学特性分析[J].人工晶体学报,2008(03):704-709. |
[3] | 张艳珍,孙洵,蒋晓东,王波,黄进,陈习权,魏晓峰,许心光.KDP晶体体缺陷和损伤的观测方法研究[J].人工晶体学报,2006(03):545-549. |
[4] | 王碧玲,高航,滕晓辑,康仁科.抛光加工参数对KDP晶体材料去除和表面质量的影响[J].人工晶体学报,2010(01):29-33,43. |
[5] | Kozlowski M R;Thomas I;Edwards E.Influence of Diamond Cutting and Surface Cleaning Processes on the Degradation of KDP Crystal Surfaces[A].New York:SPIE,1991:59-69. |
[6] | M.J. Chen;J.H. Wang;Y.C. Liang;D.Y. Yuan .Research on Influence of the Cutter Rake Angle to the Surface Quality during SPDT Machining of Crystal KDP[J].Key engineering materials,2007(339):1-5. |
[7] | M.J. Chen;J.H. Wang;X.M. Chen;Y.C. Liang .Analysis of Mechanical Property of Crystal KDP and Simulation of Ultra-precision Cutting Process in the Ductile Mode[J].Key engineering materials,2007(329):427-432. |
[8] | Javvaji R .Nanoscale Ductile Mode Ultra-precision Cutting of Potassium Dihydrogen Phosphate[D].Singapore:The Master Thesis of National University of Singapore,2008. |
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