摘要
提出制备原位合金化和原位反应颗粒共同强化金属基复合材料的概念,并据此制备厂原位10%Cu(质量分数,下同)和5.35%a-Al2O3颗粒增强纯铝复合材料(A)以及原位10%Cu;4%Si和15.06%a-Al_2O_3颗粒共同增强纯铝复合材料(B).对原位反应过程进行了热力学分析.SEM观察和EDS分析显示,A和B中的原位反应分别生成了合金元素Cu、Cu+Si以及Al2O3;原位Al2O3颗粒直径小于0.5μm,在材料中均匀分布、TEM观测显示Al2O3颗粒边角圆滑,与基体结合良好.探讨了原位反应的机理以及在铸造凝固过程中原位颗粒的行为.
A new idea to fabricate aluminum matrix composites strengthened by in situ alloying and in situ particulate has been proposed. Following the concept of in situ alloying and in situ particulate, pure aluminum matrix composites reinforced by in situ 10% (mass fraction, the same in the next presentation) Cu and 5.35%α-Al2O3 particulate (material A) and the same matrix reinforced by 10%Cu, 4%Si and 15.06%α-Al2O3 particulate (material B) have been obtained. Thermodynamic considerations are given to the in situ reactions. SEM observation and EDS analysis show that the alloy elements Cu and Si in the two materials exist as CuAl2 phase and Al-Si eutectic respectively; in situ Al2O3 is less than 0.5 μm in diameter. TEM observation of the in situ α-Al2O3 particulates shows that particulates are round cornered, and have a good cohesion with the matrix. The reaction mechanism and the distribution of in situ α-Al2O3 particulates in the process of solidification are discussed.
出处
《材料研究学报》
EI
CAS
CSCD
北大核心
2001年第4期432-438,共7页
Chinese Journal of Materials Research
基金
国家自然科学基金资助项目980402860.
