摘要
A CrZr-alloyed layer was prepared through a pre-zirconizing and subsequent chromizing treatment on a Ti6Al4V substrate.After the removal of the top Cr deposit and Ti4Cr layers,a(Cr,Zr)-Ti solidsolution layer was obtained.The microstructure,composition,microhardness and toughness of the(Cr,Zr)-Ti solid-solution layer were evaluated.The results showed that the pre-addition of Zr played an important role in inhibiting the precipitation of the soft Ti4Cr phase,which in turn allowed us to obtain a material characterized by a remarkable hardness.Wear and fatigue tests showed that the(Cr,Zr)-Ti solid-solution layer could coordinately improve the properties of the Ti6Al4V alloy.This was mainly due to the good match of hardness and toughness of the(Cr,Zr)-Ti solid-solution layer.In addition,the gradual change in composition and mechanical properties was conducive to the coordinated deformation between the(Cr,Zr)-Ti solid-solution layer and the Ti6Al4V substrate during fatigue tests.This reduced the stress concentration in correspondence of the interface between the two materials.
A CrZr-alloyed layer was prepared through a pre-zirconizing and subsequent chromizing treatment on a Ti6Al4V substrate.After the removal of the top Cr deposit and Ti4Cr layers,a(Cr,Zr)-Ti solidsolution layer was obtained.The microstructure,composition,microhardness and toughness of the(Cr,Zr)-Ti solid-solution layer were evaluated.The results showed that the pre-addition of Zr played an important role in inhibiting the precipitation of the soft Ti4Cr phase,which in turn allowed us to obtain a material characterized by a remarkable hardness.Wear and fatigue tests showed that the(Cr,Zr)-Ti solid-solution layer could coordinately improve the properties of the Ti6Al4V alloy.This was mainly due to the good match of hardness and toughness of the(Cr,Zr)-Ti solid-solution layer.In addition,the gradual change in composition and mechanical properties was conducive to the coordinated deformation between the(Cr,Zr)-Ti solid-solution layer and the Ti6Al4V substrate during fatigue tests.This reduced the stress concentration in correspondence of the interface between the two materials.
作者
于首明
刘道新
ZHANG Xiaohua
LIU Chengsong
YU Shouming;LIU Daoxin;ZHANG Xiaohua;LIU Chengsong(Institute of Corrosion and Protection,School of Aeronautics,Northwestern Polytechnical University,Xi'an 710072,China;School of Materials Science & Engineering,Xi'an University of Technology,Xi'an 710048,China)
基金
Funded by the National Natural Science Foundation of China(Nos.51171154,51101127,51771155)
Natural Science Foundation of Shaanxi Province(No.2018JQ5135)
