熔融制样-能量色散X射线荧光光谱法测定铝镁尖晶石中氧化铝、氧化镁和氧化硅
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摘要
标准中针对铝镁尖晶石的分析多采用湿法或者波长色散X射线荧光光谱法。随着能量色散X射线荧光光谱仪的迅速发展,其在多个行业的元素分析中得到了广泛应用。实验通过熔融制样,利用能量色散X射线荧光光谱仪建立了铝镁尖晶石中Al_2O_3、MgO和SiO_2的测定方法。由于铝镁尖晶石无现成标准样品,实验选用合适的特优矾土、高纯镁砂等标准样品;同时,根据其生产工艺将特优矾土标准样品和高纯镁砂标准样品,以及氧化铝基准物质和高纯镁砂标准样品合成系列校准样品。固定称样量为0.500 0g,样品与无水四硼酸锂(Li_2B_4O_7)熔剂的稀释比为1∶16,以4滴0.5g/mL NH_4Br溶液为脱模剂在1 150℃下进行熔样的效果较好。以标准样品和校准样品绘制校准曲线,Al_2O_3、MgO、SiO_2校准曲线的均方根(RMS)分别为0.916、0.888和0.029。对镁铝砖标准样品进行精密度考察,Al_2O_3、MgO和SiO_2的相对标准偏差(RSD,n=5)分别为1.4%、0.42%和3.1%;对铝镁砖标准样品和铝镁耐火物标准样品以及铝镁尖晶石试样进行分析,Al_2O_3、MgO、SiO_2的分析结果与认定值或湿法测定值基本一致,满足生产检验要求。
The analysis of alumina-magnesia spinel in standards mainly adopted wet method or wavelength dispersion X-ray fluorescence spectrometry.With the rapid development of energy dispersive X-ray fluorescence spectrometer(EDXRF),it has been widely used for the elemental analysis in many industries.A determination method of Al_2O_3,MgO and SiO_2 in alumina-magnesia spinel by EDXRF with fusion sample preparation was established.Since there were no ready-made certified reference materials(CRMs)of alumina-magnesia spinel,proper CRMs such as special bauxite and high-purity magnesia were selected in experiments.Meanwhile,a series of calibration samples were synthesized with special bauxite CRM and high-purity magnesia CRM,as well as aluminum oxide primary standard and high purity magnesia CRM according to the production process of alumina-magnesia spinel.When the sample mass as was fixed at0.500 0 g,the dilution ratio of sample to anhydrous lithium tetraborate(Li_2B_4O_7)flux was 1∶16,and four drops of 0.5 g/mL NH_4Br solution was used as the releasing reagent,the melting effect of sample was good at 1 150℃.The calibration curves were prepared with the selected CRMs and calibration sample.The root-mean-square(RMS)of calibration curves for Al_2O_3,MgO and SiO_2 were 0.916,0.888 and 0.029,respectively.The precision test was conducted with the CRMs of magnesia-alumina brick.The relative standard deviation(RSD,n=5)of determination results for Al_2O_3,MgO and SiO_2 were 1.4%,0.42%and 3.1%,respectively.The CRMs of magnesia-alumina brick and alumina-magnesia refractory as well as alumina-magnesia spinel actual sample were analyzed according to the experimental method.The results of Al_2O_3,MgO and SiO_2 were basically consistent with the certified values or those obtained by the wet method.The proposed method could meet the requirements of production inspection.
The analysis of alumina-magnesia spinel in standards mainly adopted wet method or wavelength dispersion X-ray fluorescence spectrometry.With the rapid development of energy dispersive X-ray fluorescence spectrometer(EDXRF),it has been widely used for the elemental analysis in many industries.A determination method of Al_2O_3,MgO and SiO_2 in alumina-magnesia spinel by EDXRF with fusion sample preparation was established.Since there were no ready-made certified reference materials(CRMs)of alumina-magnesia spinel,proper CRMs such as special bauxite and high-purity magnesia were selected in experiments.Meanwhile,a series of calibration samples were synthesized with special bauxite CRM and high-purity magnesia CRM,as well as aluminum oxide primary standard and high purity magnesia CRM according to the production process of alumina-magnesia spinel.When the sample mass as was fixed at0.500 0 g,the dilution ratio of sample to anhydrous lithium tetraborate(Li_2B_4O_7)flux was 1∶16,and four drops of 0.5 g/mL NH_4Br solution was used as the releasing reagent,the melting effect of sample was good at 1 150℃.The calibration curves were prepared with the selected CRMs and calibration sample.The root-mean-square(RMS)of calibration curves for Al_2O_3,MgO and SiO_2 were 0.916,0.888 and 0.029,respectively.The precision test was conducted with the CRMs of magnesia-alumina brick.The relative standard deviation(RSD,n=5)of determination results for Al_2O_3,MgO and SiO_2 were 1.4%,0.42%and 3.1%,respectively.The CRMs of magnesia-alumina brick and alumina-magnesia refractory as well as alumina-magnesia spinel actual sample were analyzed according to the experimental method.The results of Al_2O_3,MgO and SiO_2 were basically consistent with the certified values or those obtained by the wet method.The proposed method could meet the requirements of production inspection.
引文
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[7]李强,黄万燕,王勇刚,等.能量色散X射线荧光光谱法测量钢铁中的铅[J].冶金分析,2012,32(7):41-44.LI Qiang,HUANG Wan-yan,WANG Yong-gang,et al.Determination of lead in iron and steel by energy dispersive X-ray fluorescence spectrometry[J].Metallurgical Analysis,2012,32(7):41-44.
[8]罗建林.能量色散X射线荧光光谱法在测定油品硫含量中的应用[J].分析仪器,2003(3):31-34.LUO Jian-lin.Determination of sulphur in petroleum by energy dispersive X-ray fluorescence spectrometry[J].Analytical Instrumentation,2003(3):31-34.
[9]王冬圻,姜瞻梅,田然,等.能量色散X射线荧光光谱法测定奶粉中钙元素[J].食品科学,2013,34(24):254-257.WANG Dong-qi,JIANG Zhan-mei,TIAN Ran,et al.Determination of calcium in milk power by energy dispersive X-ray fluorescence spectrometry[J].Food Science,2013,34(24):254-257.
[2]朱新军.连铸钢包用铝镁尖晶石-炭砖的研制及应用[J].耐火材料,2000,34(2):100-102.ZHU Xin-jun.Development and application of MA spinel-C brick for continuous casting ladle[J].Refractories,2000,34(2):100-102.
[3]陶绍平,曹勇.铝镁尖晶石炭砖在盛钢桶上的应用[J].耐火材料,1994,28(3):165-166,169.TAO Shao-ping,CAO Yong.Application of aluminamagnesia spinel brick in ladle[J].Refractories,1994,28(3):165-166,169.
[4]曲月华,王翠艳.X-射线荧光光谱法测定铝质耐火材料中主次成分[J].冶金分析,2006,26(4):36-39.QU Yue-hua,WANG Cui-yan.Determination of major and minor components in aluminum refractory by X-ray fluorescence spectrometry[J].Metallurgical Analysis,2006,26(4):36-39.
[5]唐红霞,付宝荣.X射线荧光光谱法测定镁质耐火材料中多元素[J].甘肃冶金,2011,33(6):91-93.TANG Hong-xia,FU Bao-rong.Determination of multielements in magnesite based refractory materials using X-ray fluorescence spectrometer[J].Gansu Metallurgy,2011,33(6):91-93.
[6]王芙云,袁翠菊,任向阳.X射线荧光光谱法快速分析镁质耐火材料中硅铝铁钛钙镁[J].岩矿测试,2008,27(3):232-234.WANG Fu-yun,YUAN Cui-ju,REN Xiang-yang.Rapid determination of SiO2,Al2O3,Fe2O3,TiO2,CaO and MgO in magnesium-based refractory materials by X-ray fluorescence spectrometry with powder pellet sample preparation[J].Rock and Mineral Analysis,2008,27(3):232-234.
[7]李强,黄万燕,王勇刚,等.能量色散X射线荧光光谱法测量钢铁中的铅[J].冶金分析,2012,32(7):41-44.LI Qiang,HUANG Wan-yan,WANG Yong-gang,et al.Determination of lead in iron and steel by energy dispersive X-ray fluorescence spectrometry[J].Metallurgical Analysis,2012,32(7):41-44.
[8]罗建林.能量色散X射线荧光光谱法在测定油品硫含量中的应用[J].分析仪器,2003(3):31-34.LUO Jian-lin.Determination of sulphur in petroleum by energy dispersive X-ray fluorescence spectrometry[J].Analytical Instrumentation,2003(3):31-34.
[9]王冬圻,姜瞻梅,田然,等.能量色散X射线荧光光谱法测定奶粉中钙元素[J].食品科学,2013,34(24):254-257.WANG Dong-qi,JIANG Zhan-mei,TIAN Ran,et al.Determination of calcium in milk power by energy dispersive X-ray fluorescence spectrometry[J].Food Science,2013,34(24):254-257.
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