(河北工業(yè)大學 材料科學與工程學院,天津 300130)
摘 要: 提出一種新型的熔體攪拌鑄造工藝,解決了Al-Si合金對10μm級以下高體積分數(shù)TiN,AlN陶瓷的非真空無壓浸潤問題,并在此基礎上成功制備了高強度低成本的TiN-AlNp/Al-Si復合材料。研究表明, 細小TiN,AlN顆粒在鋁熔體中已經實現(xiàn)了潤濕,平均尺寸在2~3μm,基本呈均勻分布,與基體結合良好。當TiN,AlN的含量為10% (體積分數(shù))時,復合材料的抗拉強度為335MPa,屈服強度為240MPa,延伸率為2.4%。
關鍵字: 鋁基復合材料;TiN;AlN;潤濕性
composites with high strength
MENG Fan-bin, WANG Ru
(School of Materials Science & Engineering,
Hebei University of Technology,Tianjin 300130,China)
Abstract:A new technology of melt stirring and casting was presented to improve the wettability of TiN and AlN particles less than 10μm with high volume fraction in Al-Si alloy melt at non-vacuum and free-pressure condition. Based on this technology the TiN-AlNp/Al-Si composites with high strength and low cost were fabricated successfully. The results indicate that fine TiN and AlN ceramic particles with the size of 2~3μm have realized wetting with Al-Si melt. The particles basically assume an even distribution and a well bonding with the aluminum matrix. The main properties of the composite with 10% (volume fraction) TiN and AlN are as follows: ultimate tensile strength is 335MPa, yield strength 240MPa and elongation coefficient 2.4%.
Key words: aluminum matrix composite;titanium nitride;aluminum nitride;wettability
