The effect of laser shock processing on mechanical properties of an advanced powder material depending on different ablative coatings and confinement medias

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	The effect of laser shock processing on mechanical properties of an advanced powder material depending on different ablative coatings and confinement medias
	Yang YQ(杨玉奇)1,2,3; Lu Y(陆莹)2,3; Qiao HC(乔红超)2,3; Zhao JB(赵吉宾)2,3; Sun BY(孙博宇)2,3; Wu JJ(吴嘉俊)1,2,3; Hu XL(胡宪亮)1,2,3
刊名	International Journal of Advanced Manufacturing Technology
	2021
卷号	117 期号:7-8 页码:2377-2385
关键词	Surface topography Microhardness Compressive residual stress Confinementmedia Ablative coating FGH98
ISSN号	0268-3768
产权排序	1
英文摘要	Based on the effect of confinement media and ablative coating, laser shock processing (LSP) is a surface modification processing with properties of high efficiency, cleaning, and non-pollution. At room temperature, water is used as the common confinement media and black tape is used as ablative coating in LSP. However, due to the instability of water and black tape at high temperature, warm laser shock processing (WLSP) favors silicone oil as confinement media and aluminum foil as ablative coating, where aluminum foil is pasted on specimen surface by thin vacuum grease. Due to the differences in confinement media and ablative coating, this work focuses on the effect of confinement media and ablative coating on surface quality and mechanical property of FGH98 powder material treated by LSP. FGH98 specimens were strengthened by LSP at room temperature with different confinement medias and ablative coatings. Three groups were divided based on confinement media and ablative coating: water+black tape, water+aluminum foil, and silicone oil+aluminum foil. The group of black tape and silicone oil was removed for the absence of practical significance in engineering. 2D and 3D surface topography was observed by white-light interference surface profilometer (WLI). In addition, surface microhardness and compressive residual stress were determined. The results show that a circular pit is induced by LSP, and its shape is similar to the shape of the Gaussian curve. Compared with the other groups, the 2D surface topography of the circular pit section in the silicone oil+aluminum foil group is smoother, which would delay crack initiation. After LSP treatment, surface microhardness is improved by 7.8-10.6%, and compressive residual stress raises from 355MPa to 896MPa in the first group. According to the comparison of residual stress and surface quality, the effect of confinement media and ablative coating groups on laser shock pressure is ranked in order: water+black tape > water+aluminum foil > silicone oil+aluminum foil. The main reasons for that group order are that shock pressure may be consumed by grease cream and the reduced acoustic impedance of silicone oil is lower than that of water.
资助项目	National Natural Science Foundation of China[51875558] ; NSFC-Liaoning Province United Foundation of China[U1608259]
WOS关键词	ALLOY ; TEMPERATURE ; BEHAVIOR
WOS研究方向	Automation & Control Systems ; Engineering
语种	英语
WOS记录号	WOS:000643187700008
资助机构	National Natural Science Foundation of China (51875558) ; NSFC-Liaoning Province United Foundation of China (U1608259)
内容类型	期刊论文
源URL	[http://ir.sia.cn/handle/173321/28862]
专题	工艺装备与智能机器人研究室
通讯作者	Qiao HC(乔红超); Zhao JB(赵吉宾)
作者单位	1.University of Chinese Academy of Sciences, Beijing 100049, China 2.Institute for Robotics and Intelligent Manufacturing, Chinese Academy of Sciences, Shenyang 110169, China 3.State Key Laboratory of Robotics, Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang 110016, China
推荐引用方式 GB/T 7714	Yang YQ,Lu Y,Qiao HC,et al. The effect of laser shock processing on mechanical properties of an advanced powder material depending on different ablative coatings and confinement medias[J]. International Journal of Advanced Manufacturing Technology,2021,117(7-8):2377-2385.
APA	Yang YQ.,Lu Y.,Qiao HC.,Zhao JB.,Sun BY.,...&Hu XL.(2021).The effect of laser shock processing on mechanical properties of an advanced powder material depending on different ablative coatings and confinement medias.International Journal of Advanced Manufacturing Technology,117(7-8),2377-2385.
MLA	Yang YQ,et al."The effect of laser shock processing on mechanical properties of an advanced powder material depending on different ablative coatings and confinement medias".International Journal of Advanced Manufacturing Technology 117.7-8(2021):2377-2385.