激光冲击304不锈钢微观组织和性能研究
李玉琴, 王学德, 宋飞龙, 柴艳. 激光冲击304不锈钢微观组织和性能研究[J]. 红外与激光工程, 2016, 45(10): 1006005.
Li Yuqin, Wang Xuede, Song Feilong, Chai Yan. Study on microstructure and performances of 304 stainless steel treaded by laser shock processing[J]. Infrared and Laser Engineering, 2016, 45(10): 1006005.
[1] 中国航空材料手册编辑委员会. 中国航空材料手册[M]. 北京: 中国标准出版社, 1988.
Chinese Aeronautical Materials Handbook Compiling Committee. Aeronautical Materials Handbook[M]. Beijing: Chinese Standards Press, 1988. (in Chinese)
[2] 樊学双, 杨志刚, 张弛. 热浸镀Al-Si-Y对 S304 不锈钢高温性能的影响[J]. 稀有金属材料与工程, 2011, 40(S1): 571-574.
Fan Xueshuang, Yang Zhigang, Zhang Chi. High temperature properties of the hot dipping Al-Si-Y coating on S304 stainless steel[J]. Rare Metal Materials and Engineering, 2011, 40(S1): 571-574. (in Chinese)
[3] 童幸生,张婷. 低温离子渗碳对304不锈钢耐磨性影响的研究[J]. 新技术新工艺, 2013(5): 89-91.
Tong Xingsheng, Zhang Ting. Research on wear resistance of 304 stainless steel by low temperature plasma carburizing[J]. New Technology & New Process, 2013(5): 89-91. (in Chinese)
[4] 田华, 石江龙, 杨威. 304不锈钢离子渗氮工艺研究.热处理, 2007, 22(4): 24-26.
Tian Hua, Shi Jianglong, Yang Wei. Ion nitriding for 304 stainless steel[J]. Heat Treatment, 2007, 22(4): 24-26. (in Chinese)
[5] Yamauchi N, Okamoto A, Tukahara H, et al. Friction and wear of DLC films on 304 austenitic stainless steel in corrosive solutions[J]. Surface and Coatings Technology, 2003, 174-175: 465-469.
[6] 田修波, 汤宝寅, Chu Paul K. AISI304钢表面低电压等离子体基离子注入层摩擦磨损性能研究[J]. 摩擦学学报, 2000, 20(2): 81-84.
Tian Xiubo, Tang Baoyin, Chu Paul K. Tribological behavior of the modified layers of AISI304 stainless steel implanted with low-voltage plasma-source ion implantation[J]. Tribology, 2000, 20(2): 81-84. (in Chinese)
[7] 张洪旺, 刘刚, 黑祖昆, 等. 表面机械研磨诱导AISI304不锈钢表层纳米化(I.组织与性能)[J]. 金属学报, 2003, 29(4): 342-346.
Zhang Hongwang, Liu Gang, Hei Zukun, et al. Surface nanocrystallization of AISI304 stainless steel induced by surface mechanical attrition treatment I. Structure and property[J]. Acta Metallrugica Sinica, 2003, 29(4): 342-346. (in Chinese)
[8] 高玉魁. 不同表面改性强化处理对TC4钛合金表面完整性及疲劳性能的影响[J]. 金属学报, 2016, 52(8): 915-922.
Gao Yukui. Influence of different surface modification treatments on surface integrity and fatigue performance of TC4 titanium alloy[J]. Acta Metallrugica Sinica, 2016, 52(8): 915-922. (in Chinese)
[9] 李靖, 李军, 何卫锋, 等. TC17钛合金激光多次冲击强化后组织和力学性能研究[J]. 红外与激光工程, 2014, 43(9): 2889-2895.
Li Jing, Li Jun, He Weifeng, et al. Microstructure and mechanical properties of TC17 titanium alloy by laser shock peening with different impacts[J]. Infrared and Laser Engineering, 2014, 43(9): 2889-2895. (in Chinese)
[10] 王小平, 王大承. 基于BP神经网络的20CrMo钢激光强工艺参数优化控制[J]. 红外与激光工程, 2004, 33(3): 269-273.
[11] Li Y Q, He W F, Li Y H, et al. Characterization of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy by laser shock peening[J]. Materials Science Forum, 2012, 697-698: 466-469.
[12] 李玉琴, 王学德, 杨竹芳, 等. 激光冲击强化提高纯铜耐磨性能的研究[J]. 强激光与粒子束, 2016, 28(2): 202-206.
Li Yuqin, Wang Xuede, Yang Zhufang, et al. Wear resistance of copper improved by laser shock peening [J]. High Power Laser and Particle Beams, 2016, 28(2): 202-206. (in Chinese)
[13] Amar H, Vignal V, Krawiec H, et al. Influence of the microstructure and laser shock processing(LSP) on the corrosion behavior of the AA2050-T8 aluminium alloy[J].Corrosion Science, 2011, 53(10): 3215-3221.
[14] 李晓轩, 孙锡军, 王华明. 奥氏体不锈钢lCr18Ni9Ti激光冲击强化研究[J]. 宇航材料工艺, 1999, 29(4): 16-20.
Li Xiaoxuan, Sun Xijun, Wang Huaming. Laser shock process of austenitie stainless steel 1Cr18Ni9Ti[J]. Aerospace Materiais & Technology, 1999, 29(4): 16-20. (in Chinese)
[15] 孔德军, 周朝政, 吴永忠. 304不锈钢激光冲击处理后的残余应力产生机理[J]. 红外与激光工程, 2010, 39(4): 736-740.
Kong Dejun, Zhou Chaozheng, Wu Yongzhong. Mechanism on residual stress of 304 stainless steel by laser shock processing[J]. Infrared and Laser Engineering, 2010, 39(4): 736-740. (in Chinese)
[16] Peyre P, Fabbro R. Laser shock processing: a review of the physics and applications[J]. Opt Quantum Electron, 1995, 27(12): 1213-1229.
李玉琴, 王学德, 宋飞龙, 柴艳. 激光冲击304不锈钢微观组织和性能研究[J]. 红外与激光工程, 2016, 45(10): 1006005. Li Yuqin, Wang Xuede, Song Feilong, Chai Yan. Study on microstructure and performances of 304 stainless steel treaded by laser shock processing[J]. Infrared and Laser Engineering, 2016, 45(10): 1006005.