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脉冲YAG激光波形对缸套内壁激光刻蚀微坑形貌的影响
Effect of YAG Laser Pulse Waveform to Laser Etching Crater Morphology on Cylinder Wall

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文摘 为了减小激光刻蚀微坑表面的再铸层及增加刻蚀微坑的深度,利用双声光调制技术,通过对比0.25,7.5和200μs 3个不同量级脉宽,及对比单峰、双峰和三峰等不同激光脉冲波形的激光脉冲刻蚀微坑形貌,来研究激光脉宽及脉冲波形对刻蚀微坑形貌的影响。结果表明,激光脉宽为0.25μs时毛刺较多,脉宽为200μs时表面熔凝现象明显,脉宽为7.5μs时表面熔凝现象及毛刺都明显减少;单峰波形刻蚀微坑表面毛刺较多,深度为7.5μm,三峰波形刻蚀微坑表面出现熔凝现象,深度为10μm,双峰波形刻蚀微坑表面毛刺及熔凝最少,深度为15μm。
其他语种文摘 In order to reduce the recast layer of the laser etching crater and to increase the etching depth the effect of laser pulse width and waveform on laser etching crater morphology is studied by using double acousto-optic modulation technique,comparing the pulse widths with 0.25,7.5 and 200 μs,and comparing different waveforms with single peak,two peaks and three peaks.The results show that when the pulse width is 0.25 μs,the burr is more;when it is 200 μs,significant surface melting phenomenon appears;and when it is 7.5 μs the phenomenon of surface melting and the burr are significantly reduced.The surface of laser wave etching with a single peak has more burr with the depth of 7.5 μm,the one with three peaks appears the surface melting phenomenon with the depth of 10 μm,and when using two peaks waveform etching,the surface of burr and melting are the least,and the depth is 15 μm.
来源 中国激光 ,2011,38(6):0603032-1-0603032-6 【核心库】
关键词 激光技术 ; 激光波形 ; 脉宽 ; 微坑表面形貌 ; 微坑深度
地址

中国科学院力学研究所, 北京, 100190

语种 中文
文献类型 研究性论文
ISSN 0258-7025
学科 电子技术、通信技术
文献收藏号 CSCD:4225319

参考文献 共 10 共1页

1.  Y.Kligerman. Improving tribological performance of piston rings by partial surface texturing. Journal of Tribology,2005,127(3):632-638 被引 54    
2.  G.Ryk. Experimental investigation of partial laser surface texturing for piston-ring friction reduction. Tribology Transactions,2005,48(4):583-588 被引 25    
3.  E.Tomanik. Friction and wear bench tests of different engine liner surface finishes. Tribology International,2008,41(11):1032-1038 被引 7    
4.  G.Ryk. Experimental investigation of laser surface texturing for reciprocating automotive components. Tribology Transactions,2002,45(4):444-449 被引 44    
5.  A.Kovalchenko. The effect of laser surface texturing on transitions in lubrication regimes during unidirectional sliding contact. Tribology International,2005,38(3):219-225 被引 66    
6.  A.Kr.Dubey. Experimental study of Nd:YAG laser beam machining-an overview. Journal of Materials Processing Technology,2008,195(1/3):15-26 被引 8    
7.  A.Kruusing. Underwater and water-assisted laser processing:Part 2-etching,cutting and rarely used methods. Opt.and Laser in Engng.,2004,41(2):329-352 被引 14    
8.  L.Tunna. Micromachining of copper using Nd:YAG laser radiation at 1064,532 and 355 nm wavelengths. Opt.& Laser Technol.,2001,33(3):135-143 被引 6    
9.  L.Li. Chemical assisted laser machining for the minimisation of recast and heat affected zone. CIRP Annals Manufacturing Technology,2004,53(1):175-178 被引 10    
10.  Hua Zhang. Investigation of a novel hybrid process of laser drilling assisted with jet electrochemical machining. Opt.and Laser in Engng.,2009,47(11):1242-1249 被引 4    
引证文献 2

1 邢旭辉 CL60车轮材料表面激光离散熔凝的滚动磨损形貌 中国激光,2013,40(3):0303006-1-0303006-8
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2 蔡宝春 激光毛化形貌对轮轨材料混合润滑摩擦系数的影响 中国激光,2015,42(6):0603003-01-0603003-08
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