摘要
Cu Cr composites were prepared by self made directional solidification equipment with the high temperature gradient and double zone heating. The microstructural evolution was investigated during the directional solidification with the different solidification rate for Cu 1.0%Cr, Cu 1.7%Cr and Cu 5.6% Cr alloys, respectively. It is shown that for the hypoeutectic Cu 1.0%Cr alloy, the general microstructures consist of primary α (Cu) phase and the rod like or needle like ( α+β ) eutectics, and for the hypereutectic Cu 1.7%Cr and Cu 5.6% Cr alloys, α (Cu) phase, primary β (Cr) phase and ( α+β ) eutectics coexist. With the increase of the solidification rate, the morphology evolution of every phase is that, 1st cellular(dendrite) of α (Cu) phase thins and cellular(dendrite) spacing shortens gradually, ( α+β ) eutectics set in α (Cu) cellular or dendrite, and primary β (Cr) phase distributes unevenly on α (Cu) matrix, whose morphology undergoes the change from dendrite to particle.
Cu Cr composites were prepared by self made directional solidification equipment with the high temperature gradient and double zone heating. The microstructural evolution was investigated during the directional solidification with the different solidification rate for Cu 1.0%Cr, Cu 1.7%Cr and Cu 5.6% Cr alloys, respectively. It is shown that for the hypoeutectic Cu 1.0%Cr alloy, the general microstructures consist of primary α (Cu) phase and the rod like or needle like ( α+β ) eutectics, and for the hypereutectic Cu 1.7%Cr and Cu 5.6% Cr alloys, α (Cu) phase, primary β (Cr) phase and ( α+β ) eutectics coexist. With the increase of the solidification rate, the morphology evolution of every phase is that, 1st cellular(dendrite) of α (Cu) phase thins and cellular(dendrite) spacing shortens gradually, ( α+β ) eutectics set in α (Cu) cellular or dendrite, and primary β (Cr) phase distributes unevenly on α (Cu) matrix, whose morphology undergoes the change from dendrite to particle.
出处
《中国有色金属学会会刊:英文版》
CSCD
2004年第1期137-142,共6页
Transactions of Nonferrous Metals Society of China
基金
Project( 2 0 0 0CQ0 40 4)supportedbytheVisitorFundoftheMinistryofEducation
