机构地区:[1]School of Materials Science and Engineering Jiangsu University
出 处:《Journal of Rare Earths》2015年第2期202-206,共5页稀土学报(英文版)
基 金:Project supported by the National Natural Science Foundation of China(51174098);Open Project of Key Laboratory for Ecological-Environment Materials of Jiangsu Province(EML201208)
摘 要:In situ Al2O3np/Al-Al11Ce3 nanocomposite was successfully synthesized from Al-CeO2 system using a novel two-step processing method that combines liquid-state mechanical mixing(step-Ⅰ) and sonochemistry melt reaction(step-Ⅱ). The microstructural evolution and mechanical properties were investigated by optical microscopy(OM), scanning electron microscopy(SEM), transmission electron spectroscopy(TEM) and tensile tests, respectively. A good spatial distribution of CeO2 particles in the Al melt was achieved due to reactive wetting during step-Ⅰ, and the following formation of Al2O3 np during step-Ⅱ was attributed to the cavitation-accelerated interfacial reaction. The solidified microstructure comprised uniformly dispersed Al2O3 np in the matrix and ultrafine lamellar Al-Al11Ce3 at the grain boundaries. Such unique microstructure endowed Al2O3np/Al-Al11Ce3 nanocomposite with a good balance between tensile strength(175 MPa) and ductility(18.5%). The strengthening mechanisms of the nanocomposite included grain refinement, Orowan strengthening and quench strengthening, among which Orowan strengthening contributed the most to the yield strength of the nanocomposite.In situ Al2O3np/Al-Al11Ce3 nanocomposite was successfully synthesized from Al-CeO2 system using a novel two-step processing method that combines liquid-state mechanical mixing(step-Ⅰ) and sonochemistry melt reaction(step-Ⅱ). The microstructural evolution and mechanical properties were investigated by optical microscopy(OM), scanning electron microscopy(SEM), transmission electron spectroscopy(TEM) and tensile tests, respectively. A good spatial distribution of CeO2 particles in the Al melt was achieved due to reactive wetting during step-Ⅰ, and the following formation of Al2O3 np during step-Ⅱ was attributed to the cavitation-accelerated interfacial reaction. The solidified microstructure comprised uniformly dispersed Al2O3 np in the matrix and ultrafine lamellar Al-Al11Ce3 at the grain boundaries. Such unique microstructure endowed Al2O3np/Al-Al11Ce3 nanocomposite with a good balance between tensile strength(175 MPa) and ductility(18.5%). The strengthening mechanisms of the nanocomposite included grain refinement, Orowan strengthening and quench strengthening, among which Orowan strengthening contributed the most to the yield strength of the nanocomposite.
关 键 词:nanoparticles metallic composites sonochemistry melt reaction microstructure tensile properties rare earths
分 类 号:TB383.1[一般工业技术—材料科学与工程] TB33
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