惰气熔融-热导法测定炼钢促进剂中氮

doi:10.13228/j.boyuan.issn1000-7571.012272

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摘要氮含量是衡量炼钢促进剂性能的重要参数之一,测定炼钢促进剂中氮含量十分必要。称取0.10 g样品于锡箔中,包裹住样品,将其压紧封口后装入镍篮中,投入石墨套坩埚内进行测定,以能覆盖炼钢促进剂中氮含量范围且氮含量呈一定阶梯水平的铁屑粉、氮化锰铁、高氮铬铁和钒氮合金粉末状标准物质绘制校准曲线,建立了惰气熔融-热导法测定炼钢促进剂中氮含量的方法。在优化的实验条件下,样品中氮含量与其对应的峰面积呈良好的线性关系,校准曲线的相关系数为0.999 3,方法检出限为0.003%,方法定量限为0.010%。分别采用实验方法对4个炼钢促进剂样品中氮含量平行测定7次,测定结果的相对标准偏差(RSD)在0.91%～1.7%之间。分别称取2个0.05 g炼钢促进剂样品,加入约0.05 g铁屑粉标准物质或高氮铬铁标准物质进行加标回收试验,加标回收率为95%～102%。

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	王虹
	魏秉炎
	李异

关键词 ：炼钢促进剂, 惰气熔融, 热导法, 氮

Abstract：Nitrogen content is one of the important parameters to measure the performance of steel slag accelerant, so it is necessary to determine the content of nitrogen in steel slag accelerant. 0.10 g of sample was weighed and transferred into tin foil. After packing the sample, the tin foil was pressed and sealed and then put into nickel basket. The nickel basket was transferred into graphite duplex crucible for determination. The calibration curve was drawn with powdered reference materials of iron dust, nitride ferromanganese, high nitrogen ferrochrome and vanadium nitrogen alloy powder, which could cover the range of nitrogen content in steel slag accelerant. Meanwhile, the nitrogen content was at a certain gradient. Consequently, a method for determination of nitrogen content in steel slag accelerant was established by inert gas fusion-thermal conductivity. Under the optimized experimental conditions, the nitrogen content in the sample showed a good linear relationship with its corresponding peak area. The correlation coefficient of calibration curve was 0.999 3. The limit of detection was 0.003%, and the limit of quantification was 0.010%. The contents of nitrogen in 4 steel slag accelerant samples was determined according to the proposed method in parallel for 7 times, and the relative standard deviations (RSD) of determination results ranged from 0.91% to 1.7%. 2 steel slag accelerant samples (0.05 g) were used for recovery test by adding about 0.05 g of reference material of iron dust or nitride ferromanganese. The recoveries were between 95% and 102%.

Key words： steel slag accelerant inert gas fusion thermal conductivity method nitrogen

收稿日期: 2023-07-13

ZTFLH:	O659.2
	TF701.3

作者简介: 王虹(1970—),女,高级工程师,大学本科,研究方向为矿产品及金属材料分析;E-mail:862425585@qq.com

引用本文:

王虹, 魏秉炎, 李异. 惰气熔融-热导法测定炼钢促进剂中氮[J]. 冶金分析, 2024, 44(3): 84-89. WANG Hong, WEI Bingyan, LI Yi. Determination of nitrogen in steel slag accelerant by inert gas fusion-thermal conductivity method. , 2024, 44(3): 84-89.

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[1] 李开春,陈超,项力斌.一种水蒸气蒸馏法测定钒铝合金氮含量可行性研究[J].山东化工,2023,52(14):149-151.
LI Kaichun,CHEN Chao,XIANG Libin.Determination of nitrogen content in vanadium aluminum alloy by steam distillation[J].Shandong Chemical Industry,2023,52(14):149-151.
[2] 洪诗强,陈猛,王嘉子.水蒸气蒸馏-纳氏试剂分光光度法测定钛合金中氮含量[J].山东化工,2020,49(14):77-78.
HONG Shiqiang,CHEN Meng,WANG Jiazi.Determination of nitrogen content in titanium alloy by steam distillation-nessler reagent spectrophotometry[J].Shandong Chemical Industry,2020,49(14):77-78.
[3] 王宽,周恺,李波,等.惰气熔融-红外/热导法同时测定锆合金中氧和氮[J].冶金分析,2017,37(1):81-84.
WANG Kuan,ZHOU Kai,LI Bo,et al.Simultaneous determination of oxygen and nitrogen in zirconium alloy by inert gas fusion-infrared and thermal conductivity method[J].Metallurgical Analysis,2017,37(1):81-84.
[4] 但娟,陈晓毅,刘林,等.脉冲熔融-飞行时间质谱法测定钒氮合金材料中氧氮氢[J].冶金分析,2016,36(6):8-12.
DAN Juan,CHEN Xiaoyi,LIU Lin,et al.Determination of oxygen, nitrogen and hydrogen in vanadium-nitrogen alloy materials by pulse heating-time of flight mass spectrometry[J].Metallurgical Analysis,2016,36(6):8-12.
[5] 徐本平.脉冲加热-热导法测定钒氮合金中的高含量氮[J].冶金分析,2004,24(6):49-51.
XU Benping.Determination of high content nitrogen in vanadium-nitrogen alloy by pulse-heating thermal conductivity[J].Metallurgical Analysis,2004,24(6):49-51.
[6] 黄丽虹.脉冲加热惰气熔融-热导法测定钒氮合金中氮元素的含量[J].河北冶金,2022(2):27-30.
HUANG Lihong.Determination of nitrogen in vanadium nitrogen alloy by pulse heating inert gas melting-thermal conductivity method[J].Hebei Metallurgy,2022(2):27-30.
[7] 钟华.惰气熔融-红外吸收/热导法同时测定钒铝中间合金中氧氮[J].冶金分析,2014,34(12):7-12.
ZHONG Hua.Simultaneous determination of oxygen and nitrogen in vanadium-aluminum master alloy by inert gas fusion-infrared absorption/thermal conductivity method[J].Metallurgical Analysis,2014,34(12):7-12.
[8] 王宽,杨军红,柴琴琴,等.惰气熔融-热导法测定铝钒合金中氮[J].冶金分析,2020,40(5):79-82.
WANG Kuan,YANG Junhong,CHAI Qinqin,et al.Determination of nitrogen in aluminum-vanadium alloy by inert gas fusion-thermal conductivity method[J].Metallurgical Analysis,2020,40(5):79-82.
[9] 高鹏,金小成,段双.脉冲-热导法测定氮化锰铁中的氮[J].辽宁化工,2016,45(3):291-293.
GAO Peng,JIN Xiaocheng,DUAN Shuang.Determination of nitrogen in nitride ferromanganese by pulse-thermal conductivity method[J].Liaoning Chemical Industry,2016,45(3):291-293.
[10] 于燕鹏,胡少成,马红权,等.脉冲熔融-红外吸收热导法测定钢铁材料中氧氮和氢[J].冶金分析,2014,34(10):32-36.
YU Yanpeng,HU Shaocheng,MA Hongquan,et al.Pulse heating-infrared absorption and thermal conductivity method for the determination of oxygen,nitrogen and hydrogen in metallic materials[J].Metallurgical Analysis,2014,34(10):32-36.
[11] 杨植岗,王蓬,张长均,等.脉冲熔融-热导法测定硅铁中氮[J].冶金分析,2012,32(2):42-45.
YANG Zhigang,WANG Peng,ZHANG Changjun,et al.Determination of nitrogen in ferrosilicon by pulse melting thermal conductivity method[J].Metallurgical Analysis,2012,32(2):42-45.
[12] 张瑞霖,郭燕青,梁敏鉴.脉冲加热熔融热导法测定钛铁合金中氮含量[J].冶金分析,2010,30(8):25-29.
ZHANG Ruilin,GUO Yanqing,LIANG Minjian.Determination of nitrogen in ferro-titanium alloy by pulse heating melting-thermal conductivity method[J].Metallurgical Analysis,2010,30(8):25-29.
[13] 沈英姬.脉冲加热惰性气体熔融红外吸收-热导法测定镍基高温合金中痕量氧、氮[J].山东化工,2015,44(12):64-66.
SHEN Yingji.Determination of the pulse heating inert gas fusion thermal conductivity method of infrared absorption trace oxygen,nitrogen in nickel base super alloy[J].Shandong Chemical Industry,2015,44(12):64-66.
[14] 杨倩倩,夏元刚,郭飞飞,等.脉冲熔融-热导法测定钕铁硼中氮[J].广州化工,2013,41(12):144-146.
YANG Qianqian,XIA Yuangang,GUO Feifei,et al.Determination of nitrogen in Nd-Fe-B by pulse melting thermal conductivity method[J].Guangzhou Chemical Industry,2013,41(12):144-146.
[15] 高光洁子,冯圣雅,王莘泉,等.惰气熔融-脉冲加热法同时测定NdFeB合金中氧和氮[J].冶金分析,2011,31(1):30-34.
GAO Guangjiezi,FENG Shengya,WANG Xinquan,et al.Simultaneous determination of oxygen and nitrogen in NdFeB alloy by inert gas fusion-impulse heating method[J].Metallurgical Analysis,2011,31(1):30-34.
[16] 蔺菲,王蓬,李超,等.惰气熔融-红外吸收/热导法测定铜铬合金中氧和氮[J].冶金分析,2018,38(7):38-43.
LIN Fei,WANG Peng,LI Chao,et al.Determination of oxygen and nitrogen in copper-chromium alloy by inert gas fusion infrared absorption-thermal conductivity method[J].Metallurgical Analysis,2018,38(7):38-43.
[17] 王长华,韩维儒,侯亚丽,等.惰性气体熔融-红外/热导法测定二硼化钛增强铝基复合材料粉中氧、氮[J].化学分析计量,2021,30(3):10-13.
WANG Changhua,HAN Weiru,HOU Yali,et al.Determination of oxygen and nitrogen in TiB₂ reinforced aluminum matrix composite powder by inert gas fusion-infrared/thermal conductivity method[J].Chemical Analysis and Meterage,2021,30(3):10-13.
[18] 侯红霞,郭飞飞,杨倩倩.脉冲加热惰气熔融-热导法测定增碳剂中氮[J].冶金分析,2015,35(11):54-57.
HOU Hongxia,GUO Feifei,YANG Qianqian.Determination of nitrogen in graphite recarburizer by pulse heating inert gas fusion-thermal conductivity method[J].Metallurgical Analysis,2015,35(11):54-57.