摘要
In this research, the effects of centrifugal radius and mould rotation speed on microstructure in centrifugal-cast Al-Cu alloy have been investigated. The results show that, with increase of the centrifugal radius or mould rotation speed, the grain size of centrifugal-cast Al-Cu alloy decreases gradually, while the content of white phases containing the Al2Cu precipitated from a-phase, divorced eutectic and regular eutectic microstructure increases, leading to higher Cu macrosegregation. The variation level of microstructure in centrifugal-cast Al-Cu alloy at 600 rpm of mould rotation speed is greater than that at 300 rpm.
In this research,the effects of centrifugal radius and mould rotation speed on microstructure in centrifugal-cast Al-Cu alloy have been investigated.The results show that,with increase of the centrifugal radius or mould rotation speed,the grain size of centrifugal-cast Al-Cu alloy decreases gradually,while the content of white phases containing the Al2Cu precipitated from α-phase,divorced eutectic and regular eutectic microstructure increases,leading to higher Cu macrosegregation.The variation level of microstructure in centrifugal-cast Al-Cu alloy at 600 rpm of mould rotation speed is greater than that at 300 rpm.
基金
supported by the China National Natural Science Foundation (grant no.50434030)
