冶金分析
冶金分析
야금분석
METALLURGICAL ANALYSIS
2010年
4期
14-17
,共4页
倪文山%张萍%姚明星%孟亚兰%李贤珍
倪文山%張萍%姚明星%孟亞蘭%李賢珍
예문산%장평%요명성%맹아란%리현진
乙酸丁酯%萃取%反萃取%镓%电感耦合等离子体原子发射光谱法
乙痠丁酯%萃取%反萃取%鎵%電感耦閤等離子體原子髮射光譜法
을산정지%췌취%반췌취%가%전감우합등리자체원자발사광보법
n-butyl acetate%extraction%back extraction%gallium%inductively coupled plasma atomic e-mission spectrometry
采用HNO_3、HF和H_2SO_4溶解矿石样品,在6 mol/L HCl的介质中以乙酸丁酯萃取氯化镓,再加入适量的水从乙酸丁酯中反萃取氯化镓,从而富集痕量镓并使镓与其它干扰元素分离,在波长294.364{114}nm处以电感耦合等离子体原子发射光谱法测定了样液中的镓.对萃取机理、萃取分离技术、干扰元素的消除进行了探讨,并对仪器参数进行了优化.溶液中镓原子发射光谱强度与p(Ga)在0~3μg/mL范围内呈良好的线性关系,校准曲线相关系数为0.999 9,方法检出限为0.052μg/mL.用本方法测定了标准物质中镓的含量,测定值与认定值吻合,相对标准偏差(n=6)为0.85%~1.9%.
採用HNO_3、HF和H_2SO_4溶解礦石樣品,在6 mol/L HCl的介質中以乙痠丁酯萃取氯化鎵,再加入適量的水從乙痠丁酯中反萃取氯化鎵,從而富集痕量鎵併使鎵與其它榦擾元素分離,在波長294.364{114}nm處以電感耦閤等離子體原子髮射光譜法測定瞭樣液中的鎵.對萃取機理、萃取分離技術、榦擾元素的消除進行瞭探討,併對儀器參數進行瞭優化.溶液中鎵原子髮射光譜彊度與p(Ga)在0~3μg/mL範圍內呈良好的線性關繫,校準麯線相關繫數為0.999 9,方法檢齣限為0.052μg/mL.用本方法測定瞭標準物質中鎵的含量,測定值與認定值吻閤,相對標準偏差(n=6)為0.85%~1.9%.
채용HNO_3、HF화H_2SO_4용해광석양품,재6 mol/L HCl적개질중이을산정지췌취록화가,재가입괄량적수종을산정지중반췌취록화가,종이부집흔량가병사가여기타간우원소분리,재파장294.364{114}nm처이전감우합등리자체원자발사광보법측정료양액중적가.대췌취궤리、췌취분리기술、간우원소적소제진행료탐토,병대의기삼수진행료우화.용액중가원자발사광보강도여p(Ga)재0~3μg/mL범위내정량호적선성관계,교준곡선상관계수위0.999 9,방법검출한위0.052μg/mL.용본방법측정료표준물질중가적함량,측정치여인정치문합,상대표준편차(n=6)위0.85%~1.9%.
Mineral sample was dissolved in HNO_3, HF and H_2SO_4, and gallium trichloride was extracted with n-butyl acetate in 6 mol/L HCl. Then, gallium trichloride was back extracted with water in n-butyl acetate, so that trace amounts of gallium could be enriched and separated from other elements which might interfere with the detection. By inductively coupled plasma atomic emission spectrometry, the content of gallium in the sample was determined at the wavelength of 294.364{114} nm. The mechanism of extraction, technology of extraction and seperation, and elimination of disturbing elements were discussed. The instrument parameters were optimized. There was a good linear relationship between emission intensity of gallium and mass concentration of Ga in the range of 0-3 μg/mL. The correlation coefficient of calibration curve was 0.999 9, and the detection limit of this method was 0.052 μg/mL. The content of gallium in certified reference materials was determined by this method and the results were consistent with the certified values with a relative standard deviation(n = 6)between 0.85%-1.9%.