为了制备高纯石墨,对常规碱酸法进行改进,并采用改进后的加碱焙烧浸出法对湖北金昌鳞片石墨浮选精矿进行提纯.结果表明,使用加碱焙烧浸出法提纯后可将石墨的固定碳含量由85.792%提高至99.914%,加碱焙烧浸出法可以有效降低石墨原料中的杂质含量,其提纯效果远远优于常规碱酸法.
An alkaline roasting-leaching method was used to prepare high purity graphite from flake graphite from Hubei Jinchang instead of the commonly-used alkaline-acid method.The process parameters were optimized.Results showed that the fixed carbon mass fraction achieved by this method could be as high as 99.9% under the optimal conditions while that by the alkaline-acid method was only 85.8%,indicating that the alkaline roasting-leaching method was very effective to improve the fixed carbon content of the graphite.
参考文献
[1] | 稻垣道夫,丰田义雄,康飞宇,郑永平,沈万慈.膨胀石墨的孔隙结构-中国国家自然科学基金和日本学术振兴会联合研究项目报道[J].新型炭材料,2003(04):241-249. |
[2] | Michio INAGAKI,Tomoya NAGATA,Taisuke SUWA,Masahiro TOYODA.膨胀石墨对各种油类的吸附动力学[J].新型炭材料,2006(02):97-102. |
[3] | 康飞宇,郑永平,兆恒,王海宁,王鲁宁,沈万慈,稻垣道夫.膨胀石墨对重油和生物体液的吸附-来自中国的研究[J].新型炭材料,2003(03):161-173. |
[4] | 邱海鹏,郭全贵,宋永忠,翟更太,宋进仁,刘朗.石墨材料导热性能与微晶参数关系的研究[J].新型炭材料,2002(01):36-40. |
[5] | 周强,徐瑞清.石墨材料的润滑性能及其开发应用[J].新型碳材料,1997(03):11-16. |
[6] | 刘树和,英哲,王作明,李峰,白朔,闻雷,成会明.天然石墨球-热解炭核壳结构的制备及电化学性能研究[J].新型炭材料,2008(01):30-36. |
[7] | 杨全红,吕伟,杨永岗,王茂章.自由态二维碳原子晶体-单层石墨烯[J].新型炭材料,2008(02):97-103. |
[8] | Zaghib K;Song X;Guerfi A et al.Purification Process of nature graphite as anode for Li-ion batteries:Chemical versus thermal[J].Journal of Power Sources,2003,119:8-15. |
[9] | 刘占军,郭全贵,曹雅秀,刘长安,宋进仁,刘朗.利用"二次焦"制备高强炭/石墨材料[J].新型炭材料,2006(04):302-306. |
[10] | 刘国钦,闫珉.利用细鳞片石墨制备膨胀石墨的研究[J].新型炭材料,2002(02):13-18. |
[11] | 高林,龚银香,马玲.膨胀次数对天然鳞片膨胀石墨微结构的影响[J].新型炭材料,2006(02):139-143. |
[12] | Gupta V;Nakajima T;Ohzawa Y et al.Electrochemical characteristics and structure of surface-fluorinated graphites with different particle sizes for lithium ion secondary batteries[J].Journal of Fluorine Chemistry,2001,112:223 240. |
[13] | Fukuda K;Kikuya K;Yoshio K .Foliates natural graphite as the anode material for rechargeable lithium-ion cells[J].Journal of Power Sources,1997,69:165-168. |
[14] | 张然;余丽秀.高纯石墨制备及应用研究进展[J].中国非金属矿工业导刊,2006(54):59-61. |
[15] | 陈国义.高碳石墨提纯工艺[J].适用技术市场,1989(04):8-10. |
[16] | 冯其明,陈云,张国范,卢毅屏,欧乐明.隐晶质石墨提纯研究[J].矿产保护与利用,2003(03):20-22. |
[17] | 邱冠周.矿物材料加工学(QIU Guan-zhou.Processing of Mineral Materials[M].Changsha:Central South University Press,2003.)[M].长沙:中南大学出版社,2003:9. |
[18] | Kim J;Kim B.Chemical and low-expansion treatments for purifying natural graphite powder[J].Physicochemical Problems of Mineral Processing,2007(41):37-49. |
[19] | Mamina L I;Gilmanshina T R;Koroleva G A .Promising methods of graphite enrichment[J].Litejnoe Proizvodstvo,2003,2:16-18. |
[20] | Y.Sato;T.Ogawa;K.Motomiya;B.Jeyadevan;K.Tohji .Purification of MWNTs combining wet grinding,hydrothermal treatment,and oxidation[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2001(17):3387-3392. |
[21] | 唐兴明.石墨化学提纯试验[J].四川冶金,2000(03):57-61. |
[22] | 肖奇,张清岑,刘建平.某地隐晶质石墨高纯化试验研究[J].矿产综合利用,2005(01):3-6. |
[23] | 夏云凯.氯化焙烧法提纯天然鳞片石墨工艺研究[J].非金属矿,1993(05):21-24. |
[24] | 张清岑,刘建平,肖奇.微晶石墨除杂脱硅研究[J].非金属矿,2004(04):1-3. |
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