Single-row laser beam with energy strengthened ends for continuous scanning laser surface hardening of large metal components 被引量：3

Single-row laser beam with energy strengthened ends for continuous scanning laser surface hardening of large metal components

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摘要 For laser surface hardening of metal components with large superficies,a binary grating is proposed to generate single-row laser beam with proportional-intensity diffractive orders.To obtain a uniform hardened band distribution and improve the wear resistance of the sample surface,the binary grating is designed to produce single-row laser beam with energy strengthened at the two ends.The profile of the laser beam spot was designed to be strip with high length-width ratio to improve the machining efficiency of the hardening of large surfaces.A new advantage is suggested to obtain proportional intensity spots with evenness.The design results show that the diffractive efficiency of the binary grating is more than 70%,and the uniformity is less than 3%.The surface profile of the grating fabricated was measured,which shows that the fabrication error is less than 2%.The application of the binary grating in the laser surface hardening of metal components with large superficies is experimentally investigated,and the results show that the hardness distribution of the modified layer is more uniform than that hardened by Gaussian laser beam or array spots with equal intensity distribution. For laser surface hardening of metal components with large superficies,a binary grating is proposed to generate single-row laser beam with proportional-intensity diffractive orders.To obtain a uniform hardened band distribution and improve the wear resistance of the sample surface,the binary grating is designed to produce single-row laser beam with energy strengthened at the two ends.The profile of the laser beam spot was designed to be strip with high length-width ratio to improve the machining efficiency of the hardening of large surfaces.A new advantage is suggested to obtain proportional intensity spots with evenness.The design results show that the diffractive efficiency of the binary grating is more than 70%,and the uniformity is less than 3%.The surface profile of the grating fabricated was measured,which shows that the fabrication error is less than 2%.The application of the binary grating in the laser surface hardening of metal components with large superficies is experimentally investigated,and the results show that the hardness distribution of the modified layer is more uniform than that hardened by Gaussian laser beam or array spots with equal intensity distribution.

作者 LI ShaoXia YU Gang ZHANG JingChuan TAN QiaoFeng XU NingHan SUN PeiPei ZHENG CaiYun

机构地区 State Key Laboratory of Precision Measurement Technology and Instruments Key Laboratory of Mechanics in Advanced Manufacturing Beijing Institute of Spacecraft Environment Engineering

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2013年第6期1074-1078,共5页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the China Postdoctoral Science Foundation Funded Project (Grant No. 201104092)

关键词 binary grating beam shaping laser surface hardening DIFFRACTION 激光表面硬化处理高斯激光束金属部件连续扫描能量二元光栅激光表面强化表面轮廓测量

分类号 TN24 [电子电信—物理电子学]

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