通过热分析方法对CaCO3粉在铝熔体和氮气中的热分解特性进行了分析,在此基础上,采用CaCO3作为增黏发泡剂制备泡沫铝。结果表明:在铝熔体中,CaCO3连续升温分解反应温度比在氮气中的降低了20-30℃,在700℃恒温过程中分解匀速稳定,与泡沫化温度相匹配;铝熔体泡沫化过程中,CaCO3热分解只生成CO2而没有CO;采用CaCO3增黏发泡制备的泡沫铝,孔隙均匀,孔结构为球形或类球形。
The thermal decomposition characteristics of CaCCh powders in aluminum melt and Nz were analyzed by the thermal analysis method. On the basis, foamed aluminum was prepared with CaCO3 as thickening and blowing agent. The results show that the decomposition temperature of CaCO3 in the aluminum melt was lower by 20--30℃ than that in N2, the decomposition was uniform and stable at the constant temperature of 700℃, which matched with the foaming temperature. During the foaming process of aluminum melt, CaCO3 decomposed to CO2 only, no CO. The foamed aluminum prepared by using CaCO3 as thickening and blowing agent had uniform porosity and spherical or near spherical pore structure.
参考文献
| [1] | W. Ha;S. K. Kim;H.-H. Jo .Optimisation of process variables for manufacturing aluminium foam materials using aluminium scrap[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2005(4):495-499. |
| [2] | 周芸,左孝青,许星,任燕燕,赵国宾.泡沫Al-6Si合金的制备工艺研究[J].稀有金属,2004(01):191-194. |
| [3] | 方吉祥,赵康,谷臣清.化学法制备Al2O3包覆TiH2颗粒发泡剂[J].中国有色金属学报,2002(06):1205-1209. |
| [4] | 罗洪杰,姚广春,刘宜汉,张晓明.粉煤灰增黏制备泡沫铝材料的研究[J].东北大学学报(自然科学版),2005(03):274-277. |
| [5] | 左孝青,周芸,赵国宾,许星,任燕燕.CaCO3发泡剂制备泡沫铝工艺研究[J].稀有金属,2004(01):195-198. |
| [6] | 周向阳,刘希泉,李劼,刘宏专.采用新型发泡剂制备泡沫铝[J].中国有色金属学报,2006(11):1983-1987. |
| [7] | 周全,吴蒙.碳酸镁发泡剂制备泡沫铝的研究[J].铸造技术,2009(02):257-259. |
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