摘要
To provide a new idea to reduce anisotropy for sheets in the thickness direction by microstructure modification and,mean-while,maintain or even enhance tensile performance,the in-situ ZrB2 particle/AA7085 composite sheets with thicknesses of 1,2,3,and 6 mm were investigated.The as-cast grain size was significantly refined by the heterogeneous nucleus of the ZrB2 particle.The microstructure results show that severe hot deformation converts as-cast disordered microstructure into a sequential microstructure by crushing the remanent phases and matrix into a fiber structure.After the solid solution and aging heat treatment,the composite sheets exhibit largely recrystallized grains compared with partially recrystallized grains in the matrix sheets,and weak or even free texture exists in the composite.The grain size in the composite sheets decreases with the increase in thickness reductions.For the thickness range of 1-3 mm,the composite sheets maintain a similar tensile per-formance as that in matrix sheets,while the strength and ductility in the 6-mm-thick composite sheet are improved.
基金
financial support of the National Natural Science Foundation of China (Nos.U20A20274,52071158,51701085,and U1664254)
the Six Talents Peak Project of Jiangsu Province (2018-XCL-202)
the Open Funds of SKLMMC of SJTU (MMC-KF18-16)
the Jiangsu Provincial Key Laboratory of High-End Structural Materials (HSM1803,1902).
作者简介
Yu-tao Zhao,zhaoyt@ujs.edu.cn。
