化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
1期
183-186
,共4页
稀土硅铁合金%分光光度法%熔融%分析
稀土硅鐵閤金%分光光度法%鎔融%分析
희토규철합금%분광광도법%용융%분석
rare earth ferrosilicon alloy%spectrophotometry%melting%analysis
研究了用二安替比林甲烷分光光度法测定稀土硅铁合金中钛含量时试样的熔融方法,即采用无水碳酸钠和硼酸混合熔剂在高温下快速熔融试样,并探索了试样熔融的最优条件。试验结果表明:溶样完全,测试结果稳定,误差在允许范围内,满足分析要求;该方法能快速分解矿样,测定结果准确,与采用硝酸和氢氟酸溶解矿样相比,具有环保、快速、适应批量分析等优点。熔融稀土硅铁合金试样的最优条件是混合碱与试样比6∶1,碳酸钠与硼酸比2∶1,熔融温度1000℃,熔融时间20 min;各因素影响的主次顺序为混合碱与试样比>熔融时间>熔融温度>碳酸钠与硼酸比。
研究瞭用二安替比林甲烷分光光度法測定稀土硅鐵閤金中鈦含量時試樣的鎔融方法,即採用無水碳痠鈉和硼痠混閤鎔劑在高溫下快速鎔融試樣,併探索瞭試樣鎔融的最優條件。試驗結果錶明:溶樣完全,測試結果穩定,誤差在允許範圍內,滿足分析要求;該方法能快速分解礦樣,測定結果準確,與採用硝痠和氫氟痠溶解礦樣相比,具有環保、快速、適應批量分析等優點。鎔融稀土硅鐵閤金試樣的最優條件是混閤堿與試樣比6∶1,碳痠鈉與硼痠比2∶1,鎔融溫度1000℃,鎔融時間20 min;各因素影響的主次順序為混閤堿與試樣比>鎔融時間>鎔融溫度>碳痠鈉與硼痠比。
연구료용이안체비림갑완분광광도법측정희토규철합금중태함량시시양적용융방법,즉채용무수탄산납화붕산혼합용제재고온하쾌속용융시양,병탐색료시양용융적최우조건。시험결과표명:용양완전,측시결과은정,오차재윤허범위내,만족분석요구;해방법능쾌속분해광양,측정결과준학,여채용초산화경불산용해광양상비,구유배보、쾌속、괄응비량분석등우점。용융희토규철합금시양적최우조건시혼합감여시양비6∶1,탄산납여붕산비2∶1,용융온도1000℃,용융시간20 min;각인소영향적주차순서위혼합감여시양비>용융시간>용융온도>탄산납여붕산비。
A melting method of titanium content determination in rare earth ferrosilicon alloy using spectrophotometry with diantipyrylmethane,which mixed anhydrous sodium carbonate and boric acid to flux melting sample quickly at a high temperature was studied. The optimum condition of melting sample was investigated. The sample could be melted completely,with stable result and error in an allowable range,meeting the requirement of analysis. The method can quickly decompose ore sample to obtain accurate result,with advantages of environmental protection,quick,and adaptable to the batch analysis as compared with dissolving sample by using nitric acid and hydrofluoric acid. The optimum condition of melting rare earth ferrosilicon alloy was ratio of sample and mixed alkali 6∶1, ratio of sodium carbonate and boric acid 2∶1,and melting at 1000 ℃ for 20 min. The decreasing order of importance was ratio of sample and mixed alkali,melt time,melt temperature,and ratio of sodium carbonate and boric acid.