Design and experimental study of multi-hole coaxial powder feeding system for laser cladding
-
摘要: 为了解决送粉激光熔覆系统中因重力作用发生偏聚及水冷效果差等问题,采用以激光束轴心为中心轴圆周均匀分布送粉孔的方法,没计了一系列孔式同轴送粉喷嘴(主要结构包括激光束通道、保护气体通道、水冷通道、气载送粉通道),从而获得良好的粉末流形态,提高送粉激光熔覆的质量。用该系列喷嘴在竖直(90),60,30和水平(0)等工况下进行粉末汇集性实验,发现粉末汇集效果良好。通过对Ti和Ni粉末、工具钢和等材料进行熔覆实验,送粉系统输送的粉末稳定、均匀,得到的熔覆样品表面光滑、熔覆层组织均匀,熔覆层与基体呈冶金结合。结果表明,孔式同轴送粉系统较好地满足了激光熔覆对送粉喷嘴的要求,并且能用来进行多种元素粉末的材料合成。所开发的送粉系统适用于材料表面改性和熔覆3维制造。Abstract: To solve the problems of unsatisfied water-cooling and deposit deviation induced by gravity during laser cladding, a series of feeding nozzles distributed radially and symmetrically was designed to obtain satisfied powder stream and improve cladding quality (the main structure including laser beam routeway, shielding gas routeway, water-cooling routeway and gas feeding routeway). It was found that the powder pooling was satisfied during experiments conducted under conditions that the angles between the nozzle and horizontal plane were 90, 60, 30 and 0 respectively. Some experiments were also conducted adopting powders of Ti, Ni and tool steel respectively. Powders were fed stably and uniformly during experiments. The cladding samples with smooth surface and homogeneous microstructure were metallurgically bonded with the substrate. Experimental results show that the nozzles are satisfactory for powder feeding in laser cladding and can be used for material synthesis of powders. The system is suit for surface modification and 3-D solid fabrication.
-
Keywords:
- laser technique /
- laser cladding /
- coaxial feeding /
- powder stream
-
-
[1] ZHANG H J,ZHONG M L,LIU W J,et al.Develop of high convergent coaxial feeding nozzle with temperature display for laser rapid manufacturing[J].Applied Laser,2004,24(6):380-382(in Chinese).
[2] LI X W,ZHANG Ch H,ZHANG S,et al.Developments of laser cladding technology[J].Heat Treatment Technology and Equipment,2007,28(2):1-2(in Chinese).
[3] HU Y P,CHEN C W,MUKHERJEE K.Measurement of temperature distributions during laser cladding process [J].Journal of Laser Applications,2000,12(3):126-130.
[4] ZOU D N,HUANG Y L,LIANG G Y,et al.Numerical simulation and experimental verification of laser cladding and reaction TiC_P/Al composite material[J].Rare Metal Materials and Engineering,2003,32(8):95-97(in Chinese).
[5] PILOT M.Residual stress induced by laser coatings:phenomenological analysis and predictions [J].Material Science,1992,27(5):1240-1244.
[6] JIANG Y X.Development of laser surface cladding technology of mould[J].Forging Stamping Technology,2001,26(4):43-45(in Chinese).
[7] CHEN L ,HUANG F X,ZHAO Y,et al.Effect on microstructure and property of laser cladding about cladding material[J].Ferro-Alloys,2005,36(1):30-32(in Chinese).
[8] ZHANG Zh W,YANG W X,CHEN K,et al.Develop of feeding nozzle for laser cladding rapid prototyping[J].Laser Journal ,2007,28(1):79-80(in Chinese).
[9] JIN X Sh,YANG X Ch,WANG Y Sh,et al.Research on the coaxial powder feeder nozzle in 3-D direct manufacturing and re-manufacturing[J].Applied Laser,2008,28(4):266-270(in Chinese).
[10] GAO Sh Y,YANG X Ch.Design of nozzle for laser coaxial feed powder[J].Journal of Tianjin Institute of Textile Science and Technology,2003,22(5):42-45(in Chinese).
[11] CAI Q F,SHI Sh H,LI Ch Sh,et al.Study on inside-laser powder feeding of laser cladding rapid prototyping[J].Journal of Suzhou University(Engineering Science Edition),2009,29(2):43-45(in Chinese).
[12] ZHANG S Ch,YAO J Q,LIANG E J.Review on laser cladding techniques and cladding alloys design[J].Laser Technology,2002,26(3):204-207(in Chinese).
-
期刊类型引用(3)
1. 孙雯,张龙青. 基于深度卷积神经网络的产品无损分级检测方法. 激光杂志. 2025(02): 251-256 . 
百度学术
2. 李霞,杨正维,黄俊伟,杨亚复,高莎. 机器学习参与山区村落影像点云分类的研究. 激光技术. 2024(02): 288-294 . 本站查看
3. 李佳瑞,王继芬,范琳媛,石学军. 基于光谱和色谱数据碰撞融合策略的大麻油快速识别分类. 激光与光电子学进展. 2022(16): 506-513 . 百度学术
其他类型引用(1)
计量
- 文章访问数: 1
- HTML全文浏览量: 0
- PDF下载量: 0
- 被引次数: 4
下载: