摘要
以Al(NO3)3、LaPO4和柠檬酸为原料,采用低温燃烧方法合成Al2O3-LaPO4复合粉体.在相同热压烧结条件下,ALC50(采用燃烧法合成的复合粉体)相对密度比ALM50(采用球磨混合的复合粉体)提高2.5%,达到98.5%.断口形貌分析显示ALC50中晶粒(平均0.56μm)明显比ALM50中晶粒(平均1.74μm)细化.ALC50的强度、韧性分别比ALM50增加11.1%、11.2%,而硬度基本相同.由于弱界面的增加,ALC50钻孔速率比ALM50提高近50%.
Al2O3-LaPO4 composite powders were synthesized by low-temperature combustion synthesis using Al(NO3)3, LaPO4 and citric acid as raw materials. The relative density of hot-pressed ALC50(prepared by combustion-synthesized powders) was 98.5% and improved 2.5% in comparision with ALM50 (prepared by ball-milling of powders mixtures). It is shown that the average grain size of ALC50(0.56μm) is much smaller than that of ALM50 (1.74μm). The bending strength and fracture toughness of ALC50 are respec- tively increased by 11.1% and 11.2% while the hardness of ALC50 is almost the same. The drilling rate of ALC50 increases by approximately 50% as compared with that of ALM50 due to the increasement of weak interface.
出处
《无机材料学报》
SCIE
EI
CAS
CSCD
北大核心
2007年第1期65-69,共5页
Journal of Inorganic Materials
