Abstract:Different types of inclusions in steel materials could destroy the continuity of the metal matrix. The physical and chemical properties such as plastic toughness, fatigue and corrosion resistance of the material were deteriorated. Therefore, the size and total amount of inclusions were strictly controlled in production, and the assessment of inclusions had become an important index for steel quality classification. The principle of LIBS analysis of inclusion characterization in steel was introduced, the application research progress of LIBS technology in the distribution, particle size and content characterization of different types of inclusions was summarized, the deficiencies and difficulties was disussed, and its development prospects was prospected.
刘浏.高品质特殊钢关键生产技术[J].钢铁,2018,53(4):1-7.LIU Liu.Key production-technology for high-quality special steels[J].Iron & Steel,2018,53(4):1-7.
[2]
Cai-ping Xin,Feng Yue,Chen-xu Jiang,et al.Study on control of inclusion compositions in tire cord steel by low basicity top slag[J].High Temp.Mater.Proc.,2016,35(1):47-54.
[3]
Hailong Deng,Wei Li ,Tatsuo Sakai,et al.Very high cycle fatigue failure analysis and lifeprediction of Cr-Ni-W gear steel based on crackinitiation and growth behaviors[J].Materials,2015,8(12):8338-8354.
[4]
Rayan Bhar,Julien Jourdan,Vincent Descotes,et al.An experimental study of the inclusion behavior during maraging steel processing[J].Metall.Res.Technol.,2019,116(517):1-6.
[5]
史可庆,刘哲,刘永超.螺栓失效分析[J].金属加工:热加工,2018(6):81-84.SHI Ke-qing,LIU Zhe,LIU Yong-chao.Bolt failure analysis[J].MW Metal Forming,2018(6):81-84.
[6]
王春芳,李文成,李继康.钢中非金属夹杂物及对性能的影响[J].物理测试,2018,36(4):25-29.WANG Chun-fang,LI Wen-cheng,LI Ji-kang.Non-metallic inclusion and its effect on property of steel[J].Physics Examination and Testing,2018,36(4):25-29.
[7]
段丽飞,周海.钢中非金属夹杂物与金相鉴定分析[J].中国金属通报,2019(4):236-237.DUAN Li-fei,ZHOU Hai.Non-metallic inclusions in steel and metallographic identification analysis[J].China etal Bulletin,2019(4):236-237.
[8]
韩蓓,秦继林,郑春光.基于计算机软件分析的高速连铸连轧AA5052合金板熔体夹杂研究[J].现代工业经济和信息化,2017,7(19):17-18,60.HAN Bei,QIN Ji-lin,ZHENG Chun-guang.Research on melt inclusions of high-speed continuous casted and rolled AA5052 aluminum alloy sheet based on computer software analysis[J].Modern Industrial Economy and Informationization,2017,7(19):17-18,60.
[9]
卢宋乐,柳伟,王婷婷,等.X60和X100钢显微组织与HIC性能的关系[J].腐蚀与防护,2015,36(12):1132-1136.LU Song-le,LIU Wei,WANG Ting-ting,et al.Relationship between microstructure and HIC susceptibility of X60 and X100 pipeline steels[J].Corrosion & Protection,2015,36(12):1132-1136.
[10]
马超,罗海文.扫描电镜和电解萃取法用于超洁净钢中夹杂物的表征[J].冶金分析,2017,37(8):1-8.MA Chao,LUO Hai-wen.Inclution particles of super-clean steel examined by both scanning electron microscope and electrolytic extraction[J].Metallurgical Analysis,2017,37(8):1-8.
[11]
徐李军,时朋召,张淑兰.低合金高强钢微观组织转变机制[J].钢铁研究学报,2019,31(11):988-996.XU Li-jun,SHI Peng-zhao,ZHANG Shu-lan.Microstructure evolution mechanism of HSLA steel[J].Journal of Iron and Steel Research,2019,31(11):988-996.
[12]
于会香,邵肖静,张静,等.采用ASPEX扫描电镜研究钢中总氧和非金属夹杂物的定量关系[J].工程科学学报,2015,37(S1):35-44.YU Hui-xiang,SHAO Xiao-jing,ZHANG Jing,et al.Study on inclusion the in quantitative relationship between total oxygen content and non-metallic steel with ASPEX SEM[J].Chinese Journal of Engineering,2015,37(S1):35-44.
[13]
Yunhe Zhang,Sian Wang,Xiwang Zhao,et al.In situ study on fracture behavior of z-pinned carbon fiber-reinforced aluminum matrix composite via scanning electron microscope (SEM)[J].Materials,2019,12(1941):1-12.
[14]
李冬玲,夏念平,李江文,等.大梁钢中夹杂物的原位统计分布分析[J].冶金分析,2014,34(12):1-6.LI Dong-ling,XIA Nian-ping,LI Jiang-wen,et al.Original position statistic distribution analysis method for inclusions in beam steel[J].Metallurgical Analysis,2014,34(12):1-6.
[15]
李冬玲,李江文,张穗忠,等.钢中铝系夹杂物含量的原位统计定量方法探讨[J].冶金分析,2014,34(3):1-6.LI Dong-ling,LI Jiang-wen,ZHANG Sui-zhong,et al.Study on original position statistic quantitative content of aluminium inclusions in method for the steel[J].Metallurgical Analysis,2014,34(3):1-6.
[16]
罗倩华,李冬玲,马飞超,等.不锈钢连铸板坯横截面夹杂物的原位统计分布分析[J].冶金分析,2013,33(12):1-7.LUO Qian-hua,LI Dong-ling,MA Fei-chao,et al.Original position statistic distribution analysis for inclusion of cross-section of stainless steel continuous casting slab[J].Metallurgical Analysis,2013,33(12):1-7.
[17]
张婷婷.重轨钢中硫化锰夹杂物粒度的原位统计分布分析[J].冶金分析,2017,37(7):6-10.ZHANG Ting-ting.Analysis of manganese sulfide inclution size distribution in heavy rail steel by original position statistic distribution technique[J].Metallurgical Analysis,2017,37(7):6-10.
[18]
李冬玲,李美玲,贾云海,等.钢中硅系夹杂物含量的原位统计分布分析[J].冶金分析,2011,31(1):1-6.LI Dong-ling,LI Mei-ling,JIA Yun-hai,et al.Quantitative analysis of silicon inclusions in steel by original position statistic distribution analysis technique[J].Metallurgical Analysis,2011,31(1):1-6.
[19]
李冬玲,司红,李美玲,等.钢中硅系夹杂物粒度的原位统计分布分析[J].冶金分析,2009,29(1):1-7.LI Dong-ling,SI Hong,LI Mei-ling,et al.Determination of particle size of silicon inclusions in steel by original position statistic distribution analysis technique[J].Metallurgical Analysis,2009,29(1):1-7.
[20]
Reinhard Noll,Cord Fricke-Begemann,Sven Connemann,et al.LIBS analyses for industrial applications-an overview of developments from 2014 to 2018[J].J.Anal.At.Spectrom,2018,33(6):945-956.
[21]
温荣欣,扈莹莹,于晶,等.激光诱导击穿光谱技术及其在食品分析中的应用研究进展[J].食品科学,2019,40(15):293-299.WEN Rong-xin,HU Ying-ying,YU Jing,et al.Application of laser-induced breakdown spectroscopy technology in food analysis[J].Food Science,2019,40(15):293-299.
[22]
王卿,谭娟,吴健,等.激光诱导击穿光谱技术在环境领域中的应用动态[J].中国环境监测,2015,31(3):123-131.WANG Qing,TAN Juan,WU Jian,et al.Application progress of laser induced breakdown spectroscopy in the field of environment[J].Environmental Monitoring in China,2015,31(3):123-131.
[23]
杨柳,陈燕萍,徐剑秋,等.激光诱导击穿光谱在液体样品分析中的应用[J].激光与光电子学进展,2014,51(10):7-18.YANG Liu,CHEN Yan-ping,XU Jian-qiu,et al.Laser-induced breakdown spectroscopy for analysis of liquids[J].Laser & Optoelectronics Progress,2014,51(10):7-18.
[24]
张勇,贾云海,陈吉文,等.激光诱导击穿光谱法对钢铁偏析样品的分析[J].光谱学与光谱分析,2013,33(12):3383-3387.ZHANG Yong,JIA Yun-hai,CHEN Ji-wen,et al.Segregation bands analysis of steel sample using laser-induced breakdown spectroscopy[J].Spectroscopy and Spectral Analysis,2013,33(12):3383-3387.
[25]
杨春,贾云海,张勇.激光诱导击穿光谱分析钢中酸不溶铝含量[J].光谱学与光谱分析,2015,35(3):777-781.YANG Chun,JIA Yun-hai,ZHANG Yong.Determination of acid-insoluble aluminum content in steel by laser-induced breakdown spectroscopy[J].Spectroscopy and Spectral Analysis,2015,35(3):777-781.
[26]
张勇,贾云海,陈吉文,等.激光诱导击穿光谱对不规则未知镀层样品的分析[J].光谱学与光谱分析,2013,33(6):1468-1472.ZHANG Yong,JIA Yun-hai,CHEN Ji-wen,et al.Depth profile analysis for irregular and unknown sample by laser-induced breakdown spectroscopy[J].Spectroscopy and Spectral Analysis,2013,33(6):1468-1472.
Heinz-Martin Kuss,Horst Mittelstädt,Gregor Müller & Cetin Nazikkol.Fast scanning laser-OES.II.sample material ablation and depth profiling in metals[J].Analytical Letters,2003,36(3):667-677.
[30]
Holger Bette,Reinhard Noll Bette,Gregor Muller,et al.High-speed scanning laser-induced breakdown spectroscopy at 1000Hz with single pulse evaluation for the detection of inclusions in steel[J].Journal of Laser Applications,2005,17(3):183-190.
[31]
Yong Zhang,Yun-Hai Jia,Chun Yang,et al.Characterization of the globular oxide inclusion ratings in steel using laser-induced breakdown spectroscopy[J].Frontiers of Physics in China,2016,11(6):273-279.
[32]
韩中杰,刘佳,王辉,等.基于激光诱导击穿光谱技术的重轨钢中铝系夹杂物含量分析方法研究[J].冶金分析,2019,39(6):1-6.HAN Zhong-jie,LIU Jia,WANG Hui,et al.Study on analytical method for the content of aluminium inclusions in heavy rail steel by laser-induced breakdown spectroscopy[J].Metallurgical Analysis,2019,39(6):1-6.
[33]
S Nakahata,S Kashiwakura,K Wagatsuma.Quantitative distribution analysis of alumina inclusion particles in ferritic stainless steels by using laser-induced breakdown optical emission spectrometry[J].Surface and Interface Analysis,2017,49(8):740-749.
[34]
Fabienne Boué-Bigne.Laser-induced breakdown spectroscopy and multivariate statistics for the rapid identification of oxide inclusions in steel products[J].Spectrochimica Acta Part B:Atomic Spectroscopy,2016,119:25-35.
[35]
F Boué-Bigne.Analysis of oxide inclusions in steel by fast laser-induced breakdown spectroscopy scanning:an approach to quantification[J].Applied Spectroscopy,2007,61(3):333-337.
[36]
Reinhard Noll,Holger Bette,Adriane Brysch,et al.Laser-induced breakdown spectrometry-applications for production control and quality assurance in the steel industry[J].Spectrochimica Acta Part B:Atomic Spectroscopy,2001,56(6):637-649.
[37]
杨春,贾云海,王辉,等.硫化锰夹杂物面积与激光诱导击穿光谱信号强度关系的统计分析[J].分析化学,2018,46(2):265-272.YANG Chun,JIA Yun-Hai,WANG Hui,et al.Statistical analysis of relation of manganese sulfide inclusion area to signal intensity by laser-induced breakdown spectroscopy[J].Chinese Journal of Analytical Chemistry,2018,46(2):265-272.
[38]
杨春,贾云海,陈吉文,等.激光诱导击穿光谱法对钢中夹杂物类型的表征[J].分析化学,2014,42(11):1623-1628.YANG Chun,JIA Yun-Hai,CHEN Ji-wen,et al.Characterization of inclusion type in steel by laser-induced breakdown spectroscopy[J].Chinese Journal of Analytical Chemistry,2014,42(11):1623-1628.
[39]
M P Mateo,L M Cabalin,J M Baena,et al.Surface interaction and chemical imaging in plasma spectrometry induced with a line-focused laser beam[J].Spectrochimica Acta Part B:Atomic Spectroscopy,2002,57(3):601-608.
[40]
辛勇,孙兰香,杨志家,等.基于一种远程双脉冲激光诱导击穿光谱系统原位分析钢样成分[J].光谱学与光谱分析,2016,36(7):2255-2259.XIN Yong,SUN Lan-xiang,YANG Zhi-jia,et al.In-situ analysis of solid steel samples with remote double-pulse laser-induced breakdown spectroscopy system[J].Spectroscopy and Spectral Analysis,2016,36(7):2255-2259.
[41]
MEI Ya-guang,CHENG Yu-xin,CHENG Shu-sen,et al.Simultaneous analysis of Si,Mn and Ti segregation in pig iron by laser-induced breakdown spectroscopy[J].Infrared and Laser Engineering,2018,47(8):109-116.
[42]
贾中青,张振振,姬光荣.激光诱导击穿光谱和激光超声技术在钢轨检测中的应用[J].中国海洋大学学报:自然科学版,2019,49(8):142-146.JIA Zhong-qing,ZHANG Zhen-zhen,JI Guang-rong.Application on the rail detection using laser-induced breakdown spectroscopy and laser ultrasonic technology[J].Periodical of Ocean University of China:Natural Science Edition,2019,49(8):142-146.
