功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
19期
19138-19142
,共5页
李佳艳%贾朋军%刘瑶%李亚琼%曹盼盼%谭毅
李佳豔%賈朋軍%劉瑤%李亞瓊%曹盼盼%譚毅
리가염%가붕군%류요%리아경%조반반%담의
电解%Al-Si-Sn 合金%回收%Sn
電解%Al-Si-Sn 閤金%迴收%Sn
전해%Al-Si-Sn 합금%회수%Sn
electrolytic method%Al-Si-Sn alloy%recovery%tin
Al-Si-Sn 三元合金精炼方法能够显著提高太阳能级多晶硅的提纯产率,但添加的金属 Sn 与 Si难以分离的问题限制了它的实际应用.选用 SnCl2(60 g/L)作为电解液,Al-Si-Sn 合金(58.14%(原子分数)Al-31.86%(原子分数)Si-10%(原子分数)Sn)作为阳极,高纯 Sn(99.99%)作为阴极,在室温下进行恒电流沉积实验.通过讨论电流密度、电解液 pH 值、沉积时间、搅拌速度等参数对电流效率及 Sn 沉积层形貌的影响,优化电解回收金属 Sn 实验工艺.研究结果表明,在室温下,当磁力搅拌速度为800 r/min,电流密度为0.4~0.5 A/cm2,沉积时间为3~6 min,pH 值为3~4时,电流效率达到最大值.
Al-Si-Sn 三元閤金精煉方法能夠顯著提高太暘能級多晶硅的提純產率,但添加的金屬 Sn 與 Si難以分離的問題限製瞭它的實際應用.選用 SnCl2(60 g/L)作為電解液,Al-Si-Sn 閤金(58.14%(原子分數)Al-31.86%(原子分數)Si-10%(原子分數)Sn)作為暘極,高純 Sn(99.99%)作為陰極,在室溫下進行恆電流沉積實驗.通過討論電流密度、電解液 pH 值、沉積時間、攪拌速度等參數對電流效率及 Sn 沉積層形貌的影響,優化電解迴收金屬 Sn 實驗工藝.研究結果錶明,在室溫下,噹磁力攪拌速度為800 r/min,電流密度為0.4~0.5 A/cm2,沉積時間為3~6 min,pH 值為3~4時,電流效率達到最大值.
Al-Si-Sn 삼원합금정련방법능구현저제고태양능급다정규적제순산솔,단첨가적금속 Sn 여 Si난이분리적문제한제료타적실제응용.선용 SnCl2(60 g/L)작위전해액,Al-Si-Sn 합금(58.14%(원자분수)Al-31.86%(원자분수)Si-10%(원자분수)Sn)작위양겁,고순 Sn(99.99%)작위음겁,재실온하진행항전류침적실험.통과토론전류밀도、전해액 pH 치、침적시간、교반속도등삼수대전류효솔급 Sn 침적층형모적영향,우화전해회수금속 Sn 실험공예.연구결과표명,재실온하,당자력교반속도위800 r/min,전류밀도위0.4~0.5 A/cm2,침적시간위3~6 min,pH 치위3~4시,전류효솔체도최대치.
Al-Si-Sn ternary alloy refining method can significantly improve the purification yield of solar grade polysilicon,but the main problem of separating added metallic Sn and Si limits its practical application.The gal-vanostatic deposition experiment of Al-Si-Sn alloy at room temperature in SnCl2 (60 g/L)electrolyte solution was studied in this research.Al-Si-Sn alloy for the anode electrode and high purity Sn (99.99%)for the cathode electrode were used.The effects of current density,electrolyte pH value,deposition time and other parameters on the current efficiency and the morphology of deposited tin were discussed to optimize the experimental process of electrolytic recovery of metal Sn.The results show that at room temperature,current efficiency rea-ches maximum when magnetic stirring speed was 800 r/min,current density was 0.4-0.5 A/cm2 ,deposition time was 3-6 min,and pH value was 3-4.
