Determination of free carbon in mold flux for continuous casting by high frequency combustion infrared absorption method with glass fiber membrane collection
ZHONG Hua
State Key Laboratory of Vanadium and Titanium Resources Comprehensive Utilization, Pangang Group Research Institute Co.,Ltd., Panzhihua 617000, China
Abstract:The content of free carbon in mold flux of continuous casting was an important index to assess the quality of products. During the collection of free carbon by current standard method of YB/T 190.6-2014, the tightness degree of filling pickling asbestos in the filter had a great influence on the determination results of free carbon. Moreover, the filter material belonged to the carcinogenic reagent, and it was not suitable for long-term contact. The glass fiber membrane containing organic binding agent was burned at 450 ℃ for 36 h to remove the organic matters in the membrane. A thin layer of tungsten trioxide powder was covered on one piece of glass fiber filter membrane to quantitatively collect the free carbon particles in mold flux. Then, a determination method of free carbon in mold flux for continuous casting was established by high-frequency combustion infrared absorption with 0.4 g of tin particle and 2.0 g of tungsten particle as flux. The carbon content was traced with certified reference materials of iron and steel. The mixture of 1.08-24.21 mg consisting of spectrally pure graphite powder and 0.5 g of tungsten trioxide powder was parceled with one piece of glass fiber filter membrane. The recoveries of spectrally pure graphite carbon were between 99.1% and 100.4%. Under the selected experimental conditions, the blank value of carbon in whole analysis system was 0.025% (mass fraction, similarly hereinafter). The limit of detection was 0.01%, and the limit of quantification was 0.03%. The proposed method was applied for the determination of free carbon in certified reference material and actual sample of mold flux, and the results were consistent with the certified values. The relative standard deviations (RSD, n=8) of determination results of actual sample were between 0.30% and 1.0%.
钟华. 玻璃纤维膜收集-高频燃烧红外吸收法测定连铸保护渣中游离碳[J]. 冶金分析, 2021, 41(6): 51-55.
ZHONG Hua. Determination of free carbon in mold flux for continuous casting by high frequency combustion infrared absorption method with glass fiber membrane collection. , 2021, 41(6): 51-55.
[1] 饶添荣.连铸保护渣的特性及其选用[J].上海金属,2004,26(2):50-53. RAO Tianrong. Characteristic of CC mould powder and its selection[J].Shanghai Metals,2004,26(2):50-53. [2] 张贺林,朱果灵.薄板坯连铸用保护渣[J].钢铁,1995,30(2):23-27. ZHANG Helin,ZHU Guoling.Mould powder for thin slab continuous casting[J].Iron and Steel,1995,30(2):23-27. [3] 铁生年,张芬娟,陈列,等.连铸保护渣性能研究进展[J].中国冶金,2008,18(12):1-5. TIE Shengnian,ZHANG Fenjuan,CHEN Lie,et al.Researching progress in characters of mould powder of casting[J].China Metallurgy,2008,18(12):1-5. [4] 向伦强.碳化钛粉中总碳、游离碳的测定[J].钛工业进展,2004,21(1):45-47. XIAN Lunqiang.Determination of total carbon and free carbon in titanium carbide powder[J].Titanium Industry Progress,2004,21(1):45-47. [5] 金钦乾,汪秀珍.TiC,NbC,ZrC中总碳、游离碳及化合碳的红外吸收测定[J].冶金分析(Metallurgical Analysis),1998,18(5):41-42. [6] 钟其云,孙羽.碳化钨和硬质合金中总碳、化合碳及游离碳测定方法研究[J].分析试验室,1990,9(3):27-30. ZHONG Qiyun,SUN Yu.On determination of total carbon,combined carbon and free carbon in tungsten carbides and cemented carbides[J].Chinese Journal of Analysis Laboratory,1990,9(3):27-30. [7] 朱俊峰,汪丹丹.陶瓷过滤器在碳化物游离碳测定中的应用[J].粉末冶金技术(Powder Metallurgy Technology),1994,12(3):232-233. [8] 曹吉祥,乌静,张为,等.新型透水坩埚在红外线吸收法测定连铸保护渣游离碳含量中的应用[J].理化检验(化学分册)(Physical Testing and Chemical Analysis (Part B:Chemical Analysis)),2002,38(12):634. [9] 梁静,李来平,林小辉,等.碳化钼本体催化剂中游离碳含量的检测[J].中国钼业,2014,38(6):26-29. LIANG Jing,LI Laiping,LIN Xiaohui,et al.Detection of free carbon content in molybdenum carbide catalyst[J].China Molybdenum Industry,2014,38(6):26-29. [10] 钟华.玻璃纤维膜收集-红外吸收光谱法测定碳化钨粉中游离碳[J].理化检验(化学分册)(Physical Testing and Chemical Analysis (Part B:Chemical Analysis)),2016,52(12):1462-1464.
