Abstract:Nonmetallic inclusion is one of main factors influencing the quality and performance of steels. The automatic analysis function of scanning electron microscope (SEM) is a common method for the detection of inclusions in steels, and it has the advantages of high degree of operation automation and abundant data of detection results. This function was employed to determine the tundish molten steel sample and wire rod sample of one low carbon low alloy steel after compound deoxidation by aluminum, silicon and manganese. The utilization of main data in detection results was introduced in the manner of cases. The composition and type of inclusions were judged based on the content of elements. The inclusions in experiments included MnS and various oxides in experiments. The equivalent diameter (ECD) could be used for size analysis. Then the cleanliness level of steel quality could be evaluated by combining with the information of quantity, and to guide the optimization of inclusion control technology. The average ECD of inclusions in tundish molten steel sample and wire rod sample in experiments were 1.89 μm and 1.14 μm, respectively. The size of former one was much larger than the later one, while the density of inclusions in the former one was lower than that in the later one. In terms of type, silicate and aluminosilicate inclusions were two main types of oxide inclusions in experiments. The size of the former one was slightly smaller with average ECD of about 1.005 μm. The quantity of the later one was the most, the proportion in the wire rod sample exceeded 50%. The position of inclusions could be also located according to the detection results. Various inclusions were all randomly distributed on two types of samples in experiments. The deformation of inclusions increased with the increase of size in rolling process. Along with the distribution position from the edge to the core of the matrix, the deformation increased firstly and then decreased. The length-width ratio of sulfides was higher than that of oxides. The length-width ratio of calcium-modified oxides was larger than that before modification.
陈涛, 易敏, 丁宁, 严春莲, 其其格, 肖国强. 扫描电镜夹杂物自动分析功能在钢材上的应用[J]. 冶金分析, 2023, 43(1): 41-48.
CHEN Tao, YI Min, DING Ning, YAN Chunlian, QI Qige, XIAO Guoqiang. Application of automatic analysis function of scanning electron microscope for detection of inclusion in steel. , 2023, 43(1): 41-48.
[1] 王昆鹏,王郢,廖家明,等.超深拉拔类线材夹杂物及断口分析[J].钢铁,2022,57(2):101-108. WANG Kunpeng,WANG Ying,LIAO Jiaming,et al.Investigation on inclusions and breakages in ultra-deep drawing wire rod[J].Iron and Steel,2022,57(2):101-108. [2] 王利.单颗粒球状非金属夹杂物对螺栓性能影响[J].热处理技术与装备,2021,42(6):27-30. WANG Li.Effect of single particles spherical non-metallic inclusion on properties of the bolt[J].Heat Treatment Technology and Equipment,2021,42(6):27-30. [3] 康伟,金友林.抗疲劳应力钢中的夹杂物控制[J].钢铁,2019,54(5):27-31. KANG Wei,JIN Youlin.Inclusions control in anti-fatigue stress steel[J].Iron and Steel,2019,54(5):27-31. [4] 张春富.钢中非金属夹杂物及对性能的影响[J].冶金与材料,2020,40(4):34-35. ZHANG Chunfu.Non-metallic inclusion and its effect on property of steel[J].Metallurgy and Materials,2020,40(4):34-35. [5] 王毓男,包燕平.BN型易切削钢中夹杂物的控制及对切削性能的影响[J].钢铁研究学报,2017,29(5):382-390. WANG Yunan,BAO Yanping.Control of inclusion in BN free cutting steel and its effect on machinability[J].Journal of Iron and Steel Research,2017,29(5):382-390. [6] 陆斌,陈芙蓉,智建国,等.应用稀土氧化物冶金技术改善高强钢焊接性能[J].金属学报,2020,56(9):1206-1216. LU Bin,CHEN Furong,ZHI Jianguo,et al.Enhanced welding properties of high strength steel via rare earth oxide metallurgy technology[J].Acta Metallurgica Sinica,2020,56(9):1206-1216. [7] 郝娴,顾强,陈子豪,等.浸入式水口堵塞机理及防堵措施[J].材料导报,2021,35(S1):489-494. HAO Xian,GU Qiang,CHEN Zihao,et al.Plugging mechanism and prevention measures of submerged nozzle[J].Materials Reports,2021,35(S1):489-494. [8] 杨克枝,张乔英,常正昇.含Ti铝镇静超低碳钢连铸过程水口堵塞控制实践[J].特殊钢,2020,41(6):36-40. YANG Kezhi,ZHANG Qiaoying,CHANG Zhengsheng.Practice on control of nozzle clogging in casting process of Ti-bearing Al-killed ultra-low carbon steel[J].Special Steel,2020,41(6):36-40. [9] 张淑兰,王辉,王昌.基于扫描电镜测量非金属夹杂物分类方法探讨[J].冶金分析,2020,40(1):7-16. ZHANG Shulan,WANG Hui,WANG Chang.Discussion on the classification rule for the nonmetallic inclusions measured by scanning electron microscope[J].Metallurgical Analysis,2020,40(1):7-16. [10] 赵景存,李雷,朱叶.22CrMoH钢轧制过程中金属流变对锭型偏析的影响[J].河北冶金,2021(10):33-36. ZHAO Jingcun,LI Lei,ZHU Ye.Effect of metal rheology on ingot segregation during the rolling process of 22CrMoH[J].Hebei Metallurgy,2021(10):33-36.
