激光微织构用吸光涂层正交工艺试验研究

孙建国; 李胜; 何镇盐; 华希俊; 张培耘; 符永宏; 纪敬虎

doi:10.7510/jgjs.issn.1001-3806.2016.06.027

激光微织构用吸光涂层正交工艺试验研究

1.
江苏大学机械工程学院, 镇江 212013

作者简介: 孙建国(1988-),男,硕士研究生,现主要从事固体润滑及激光技术应用方面的研究。.

通讯作者: 华希俊, xjhua@ujs.edu.cn ;

基金项目:
国家自然科学基金资助项目（51375211;51175233）;江苏省工业支撑项目资助项目（BE2014115）;江苏省大学生创新计划资助项目（201410299002Z）
中图分类号: TN249

Study on orthogonal processing experiment of light absorbing coatings for laser micro-dimple

1.
School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China

Corresponding author: HUA Xijun, xjhua@ujs.edu.cn ;

CLC number: TN249

摘要: 为了提高金属表面激光吸收率及激光微织构加工表面质量，采用W-71s型喷枪在试样表面分别喷涂黑漆、水玻璃和黄料，并用Nd∶YAG激光器对其进行激光微凹坑加工。与无涂层试样相比，激光加工水玻璃和黄料涂层试样表面蚀除凹坑体积都增加，其凹坑边缘熔渣体积都减少，其中，黄料涂层试样表面蚀除凹坑体积增加了29.4%；在此基础上，利用正交试验法探讨水玻璃和黄料的配比以及厚度对激光微织构加工表面蚀除凹坑体积和凹坑边缘熔渣体积的影响。结果表明，吸光涂料的厚度控制在0.1mm左右，黄料含量17%、水玻璃含量18%的涂料为最优涂料配方；正交试验表中最优试样表面蚀除凹坑体积相比无涂层试样增加了70.6%，其凹坑边缘熔渣体积减少了16.2%。该工艺显著提高了激光吸收率和激光加工表面质量。
- 激光技术 /
- 激光微织构加工 /
- 吸光涂料 /
- 凹坑体积 /
- 熔渣体积 /
- 正交试验
Abstract: In order to improve the laser absorption rate of metal surface and processing surface quality of laser micro-dimple,W-71s type spray gun was used to spray black paint, water glass and yellow material on the surface of samples, respectively. Then, the samples were processed by Nd:YAG laser. Compared with the uncoated specimens, the dimple volume increased and slag volume decreased respectively, around the dimples of specimen surface coated with water glass and yellow material. Dimple volume of the sample coated with yellow material increased by 29.4%. On the basis, the influence of thickness and formula of water glass and yellow material on dimple volume and slag volume of laser processing surface were discussed by orthogonal experimental method. The results show that when the thickness of absorb light coating is about 0.1mm, the content of yellow material is 17% and the content of water glass is 18%, the coating formulation is optimal. Compared with the uncoated sample, dimple volume of the best sample in orthogonal table increased by 70.6% and the corresponding slag volume around the dimple decreased by 16.2%. The study indicates that laser absorption rate and laser processing quality on the surface can be significantly improved.
- laser technique /
- laser micro-dimple processing /
- light absorbing coating /
- dimple volume /
- slag volume /
- orthogonal experiment

[1]	GAO Sh Y, XU Ch, YANG Y Q, et al. Optimization algorithm of galvanometer scanning laser marking for Chinese characters[J]. Laser Technology, 2014, 38(6):790-793(in Chinese).
[2]	LI X Ch, ZHANG Y K. Effect of laser shock times on electrochemical performance of AZ31 magnesium alloy[J]. Laser Technology, 2015, 39(4):466-470(in Chinese).
[3]	PAN J X, TANG X H, SHENG L M, et al. Refraction effect of light-induced plasma during high-power diode laser processing[J]. Laser Technology, 2015, 39(4):557-561(in Chinese).
[4]	YIN Zh Y, QIANG X W, WANG Y F, et al. Research of laser diode beam collimation based on astigmatism surface microlens[J]. Laser Technology, 2015, 39(4):458-461(in Chinese).
[5]	ZHOU C, ZHANG L, CHEN G Y, et al. Prediction and optimization algorithm of process parameters for laser dressing grinding wheels[J]. Laser Technology, 2015, 39(3):320-324(in Chinese).
[6]	LU J, NI X W. Reciprocity between laser and material physics[M]. Beijing:China Machine Press,1996:18-25(in Chinese).
[7]	OUYANG H W, LIU Zh M, HUANG Sh Ch, et al. Laser scanning to fabricate spherical powder by balling effect[J]. Laser Technology, 2008, 32(6):572-575(in Chinese).
[8]	YANG D C, LIU J H. Effect of outer magnetic field on laser beam welding penetration depth[J]. Laser Technology, 2001, 25(5):347-350(in Chinese).
[9]	CHEN J, ZHANG Q L, YAO J H, et al. The effect of external applied electric field on the laser absorption metal materials[J]. Laser Technology, 2009, 33(2):121-123(in Chinese).
[10]	CHEN J, ZHANG Q L, YAO J H, et al. Influence of surface roughness on laser absorptivity[J]. Laser Technology, 2008, 32(6):624-627(in Chinese).
[11]	TAN L K. Wave length roughness light scattering[J]. Optoelectronic Technology Information, 2003, 16(2):37-39(in Chinese).
[12]	HUANG Y, YANG F, LIANG G. Using in-situ technique to determine laser absorptivity of Al-alloys[J]. Chinese Journal of Lasers, 2003, 30(5):449-453(in Chinese).
[13]	GENG G G. Design and optimization for light absorption for laser heat treatment[D].Hangzhou:Zhejiang University of Technology, 2011:46-56(in Chinese).
[14]	YUAN Y F. Analysis of multi-target orthogonal experiment[J]. Journal of Hubei Automotive Industrial Institute, 2005, 19(4):53-56(in Chinese).
[15]	FU Y H, HUA X J, TAO G N, et al. Experimental study on technical parameters of laser-surface-micro-textured friction units[J]. Applied Laser, 2006, 26(5):295-298(in Chinese).

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激光微织构用吸光涂层正交工艺试验研究

作者简介: 孙建国(1988-),男,硕士研究生,现主要从事固体润滑及激光技术应用方面的研究。.

通讯作者: 华希俊, xjhua@ujs.edu.cn ;

Study on orthogonal processing experiment of light absorbing coatings for laser micro-dimple

Corresponding author: HUA Xijun, xjhua@ujs.edu.cn ;

计量

激光微织构用吸光涂层正交工艺试验研究

通讯作者: 华希俊, xjhua@ujs.edu.cn;

作者简介: 孙建国(1988-),男,硕士研究生,现主要从事固体润滑及激光技术应用方面的研究。

English Abstract

Study on orthogonal processing experiment of light absorbing coatings for laser micro-dimple

Corresponding author: HUA Xijun, xjhua@ujs.edu.cn

全文HTML

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留言板

激光微织构用吸光涂层正交工艺试验研究

作者简介: 孙建国(1988-),男,硕士研究生,现主要从事固体润滑及激光技术应用方面的研究。.

通讯作者: 华希俊, xjhua@ujs.edu.cn ;

Study on orthogonal processing experiment of light absorbing coatings for laser micro-dimple

Corresponding author: HUA Xijun, xjhua@ujs.edu.cn ;

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激光微织构用吸光涂层正交工艺试验研究

通讯作者: 华希俊, xjhua@ujs.edu.cn;

作者简介: 孙建国(1988-),男,硕士研究生,现主要从事固体润滑及激光技术应用方面的研究。

English Abstract

Study on orthogonal processing experiment of light absorbing coatings for laser micro-dimple

Corresponding author: HUA Xijun, xjhua@ujs.edu.cn

全文HTML

目录