采用SEM、EDS和DSC等方法研究稀土氧化物对采用氟盐法制备Al-Ti-C-RE的热力学影响。结果表明:Al与K2TiF6发生铝热放热反应生成TiA13及部分游离态[Ti],在铝热反应的作用下,稀土氧化物Ce2O3与C发生碳热反应,生成大量的CeC2,该相与游离态[Ti]易反应生成TiC和原子态[Ce],反应生成的[Ce]为表面活性元素,吸附在TiA13相上形成Al2Ti20Ce。DSC分析结果表明,添加稀土氧化物Ce2O3可在1120℃左右自发产生碳热反应。因此,在铝热反应的基础上,利用稀土氧化物与石墨粉之间的碳热反应,不仅可以降低制备Al-Ti-C-RE细化剂的反应温度,同时还可提高C与铝熔体的润湿性,促进TiC粒子的生成。
The effects of the rare earth oxide on the thermodynamics of Al-Ti-C-RE master alloy prepared by mixing the potassium titanium fluoride and carbon into aluminum melt were studied by means of SEM, EDS and DSC. The results show that the aluminothermy reaction of the Al melt and K2TiF6 occurs to produce the TiA13 and [Ti] atoms. Then, based on the aluminothermy reaction, the rare earth oxide Ce2O3 reacts with carbon to produce the carbothermy reaction and abundant CeC2 phases form, which react with [Ti] atoms easily to produce the TiC particles and [Ce] atoms. The reacted [Ce] atom is a kind of surface active elements, and easily adsorbs on the TiA13 phases to form the new rare earth compounds Al2Ti20Ce. The DSC analysis results show that the rare earth oxide Ce2O3 has spontaneous carbo-thermal reaction at 1 120℃, which decreases the reacting temperature to manufacture Al-Ti-C-RE master alloys, improves the wettability between carbon and aluminum melts and promotes the formation of TiC particles.
参考文献
[1] | Liu XF.;Wang ZQ.;Zhang ZG.;Bian XF. .The relationship between microstructures and refining performances of Al-Ti-C master alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(1/2):70-74. |
[2] | Zhonghua Zhang;Xiufang Bian;Yan Wang .TEM observations of a rapidly solidified Al-Ti-C alloy[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2003(1/2):121-128. |
[3] | HAN Guang,LIU Xiang-fa,DING Hai-min.Grain refinement of AZ31 magnesium alloy by new Al-Ti-C master alloys[J].中国有色金属学报(英文版),2009(05):1057-1064. |
[4] | Xiaoguang Ma;Xiangfa Liu;Haimin Ding .A united refinement technology for commercial pure Al by Al-10Ti and Al-Ti-C master alloys[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2009(1/2):56-59. |
[5] | Liu XF;Yu L;Liu JW;Wang ZQ;Bian XF .A new technique to refine pure aluminum by Al-Ti-C mold[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):267-270. |
[6] | 陈亚军,许庆彦,黄天佑.稀土铝钛硼中间合金的细化能力与长效性[J].中国有色金属学报,2007(08):1232-1239. |
[7] | 张胜华,张涵,朱云.稀土在Al-Ti-B-RE中间合金中的作用[J].中南大学学报(自然科学版),2005(03):386-389. |
[8] | 孟保平,谢敬佩,张英,梁东梅.Al-Ti-C-RE对AZ系变形镁合金的晶粒细化作用[J].有色金属加工,2005(03):11-13,19. |
[9] | 夏天东,丁万武,赵文军,王晓军,徐仰涛.TiAl_3对TiC粒子在铝基体中分布及α(Al)晶粒形核的影响[J].中国有色金属学报,2009(11):1948-1955. |
[10] | 马伯江,胡宪正,蒋建清,谈荣生.AlTiCRE合金细化剂对纯铝的细化作用[J].江苏冶金,2002(04):1-4. |
[11] | 胡宪正,梁超,于金,谈荣生,曾宇乔,蒋建清.稀土对AlTiC细化剂组织及细化效果的影响[J].中国稀土学报,2004(02):247-250. |
[12] | 罗天骄,姚广春,吴林丽,刘宜汉,韩变华.CeO2在镀镍碳纤维增强铝合金基复合材料中的作用[J].中国有色金属学报,2007(01):80-84. |
[13] | 吴钱林,孙扬善,薛烽,周健.CeO2对原位TiC弥散强化钢组织和性能的影响[J].中国稀土学报,2008(01):92-96. |
[14] | 刘佑铭,许伯藩,蔡珣,李刘合,陈秋龙.稀土CeO2作为添加剂制备in situ TiC/Al基复合材料[J].上海交通大学学报,2004(07):1122-1125. |
[15] | 韩宝军,刘柏雄.Al-Ti-C晶粒细化剂制备新工艺[J].铝加工,2005(04):7-9. |
[16] | 张作贵,刘相法,边秀房.Al-Ti-C系中TiC形成的热力学与动力学研究[J].金属学报,2000(10):1025-1029. |
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