摘要
将Ti与C同时加入Al熔体可制备出Ti与C摩尔比分别大于、等于、小于 4的 3种含不同物相的AlTiC合金 :Al TiAl3 TiC、Al TiC、Al Al4C3 TiC。对纯铝的细化实验表明 :不含过量Ti的后两种合金的细化效果相近 ,Al4C3 在Al TiC合金中的大量出现不会进一步降低合金的细化能力 ;含TiAl3 的第一种合金的细化效率远高于后两者的 ;TiC物相在基体中以离散颗粒或聚集团形式在Al基体中分布 ;Al4C3 相极脆 ,易与空气中的水蒸汽反应而分解。分析表明Ti与C在Al熔体中反应生成TiC是通过两条途径同时进行的 :熔体中的固体C颗粒与溶解态的Ti直接反应 ;固体C颗粒和Al反应生成的Al4C3 与溶解态的Ti发生反应。
Three kinds of AlTiC alloys with the mole ratio of Ti and C exceeding, equal to or below the stoichiometric value in TiC, i.e. Al-TiAl_3-TiC, Al-TiC, and Al-Al_4C_3-TiC alloys, can be readily produced by a new method involving the simultaneous addition of Ti and C into Al melt. The latter two kinds of alloys have similar refinement efficiencies on pure Al despite of the presence of large amount of Al_4C_3 phase in Al-Al_4C_3-TiC, but their efficiencies are much lower than that of the first one due to the absence of excess Ti beyond the combined in TiC in the matrix, suggesting some significant role of excess Ti in the refinement. TiC phase in the alloys exists in the form of discrete particle or small clusters consisting of several discrete particles, which are homogeneously distributed in the matrix. Large agglomerates of TiC particles along grain boundaries were also observed. Al_4C_3 phase in Al 8Ti3.5C is brittle and easy to react with moisture in the air. Analysis shows that formation of TiC is accomplished through the simultaneous reaction of Ti dissolved in the Al melt with either solid carbon particle or Al_4C_3 phase.
出处
《中国有色金属学报》
EI
CAS
CSCD
北大核心
2003年第6期1407-1413,共7页
The Chinese Journal of Nonferrous Metals
基金
国家自然科学基金资助项目 (5 0 1710 3 7)
山东省优秀中青年科学家科研奖励基金资助项目 (0 1BS2 3 )
