摘要
The precipitation kinetics ofγ'-Ni_(3)(Al,Ta)phase and creep properties of Ni-15Al-x Ta at.%superalloys are investigated by the crystal plasticity phase-field simulation.The results show that the high Ta content brings a lower creep strain for the deceleration and steady creep stage,while the creep lifetime is shorter.The large external strain intensifies the creep damage and shortens the creep life of Ni-15Al-3Ta at.%superalloy.The kinetics evolution and elements distribution are revealed in the quaternary Ni-10Al-8.5Cr-xT a(x=1.5 at.%,2.0 at.%,2.5 at.%)superalloys by the multi-component phase-field simulation.The anti-phase boundary(APB)changes the coarsening mechanism ofγ'phase,and Ta promotes the precipitation ofγ'phase with an increasing volume fraction and particle number.The composition difference betweenγ'andγphases increases with the rising of Ta content,the strong partitioning of Ta toγ'phase strengthens the partitioning of Ni and Cr toγmatrix,and Ta shows a superiority than Al in the lattice site occupation of L1_(2)-Ni_(3)(Al,X)phases.As an importantγ'phase forming element,the optimization of Ta content is essential for improving the mechanical properties of Ni-based superalloys.
基金
supported by the National Natural Science Foundation of China(Grant No.52275342)
the Fundamental Research Funds for the Central Universities(Grant No.30921013107)。
