摘要
采用熔铸法制备了原位自生Al2O3-TiCp/Al基复合材料。借助差示扫描量热仪(DSC)、扫描电子显微镜(SEM)、能谱分析仪(EDS)、X射线衍射仪(XRD)等测试技术,对Al-TiO2-C体系的热力学进行了详尽的分析,讨论了过量铝对Al-TiO2-C体系反应的影响。结果表明,通过控制反应温度等工艺参数完全可以获得原位自生Al2O3-TiCp/Al基复合材料,避免副产物Al3Ti和Al4C3的产生。Al-TiO2-C体系原位合成Al2O3-TiCp/Al基复合材料存在着复杂的化学反应。首先在无过量铝的情况下,Al与TiO2发生置换反应,生成了Al2O3和游离态[Ti],而后游离态[Ti]与C结合生成TiC;而存在过量铝的情况下,首先发生铝热反应生成Al3Ti,进而Al3Ti与C结合生成TiC。最终完全获得Al2O3-TiCp/Al复合材料。随着过量Al含量由0增加至70%,Al与TiO2反应生成Al2O3的反应起始温度不断降低。
The in situ Al2O3-TiC p/Al composites were successfully fabricated by melting and casting technique in the Al-TiO 2-C system.The thermodynamic mechanism of the composites was investigated by means of DSC and SEM and EDS and XRD techniques et al.The results showed that the ideal composites can be obtained by controlling and adjusting process parameters,avoiding to formation of Al3Ti and Al4C3.the chemical reactions were complicated in the Al-TiO2-C system.Little overdose aluminum caused that the displacement reaction occurred between Al and TiO2 with releasing much heat,and Al2O3 and free Ti were formed,then the active Ti combined with C and produced TiC;more overdose aluminum caused the thermit reaction happened between Al and TiO2,and was generated,then Al3Ti combined with C and produced TiC.With the overdose aluminum increasing,the initial reaction temperature between Al and TiO2 decreased.
出处
《材料工程》
EI
CAS
CSCD
北大核心
2010年第3期74-78,83,共6页
Journal of Materials Engineering
基金
国家教育部重点科学技术项目资助(206046)
黑龙江省博士后科研启动基金项目资助(LHK039)
