摘要
Phase transition of polycrystalline iron compressed along the Hugoniot is studied by combining laser-driven shock with in situ x-ray diffraction technique.It is suggested that polycrystalline iron changes from an initial body-centered cubic structure to a hexagonal close-packed structure with increasing pressure(i.e.,a phase transition fromαtoε).The relationship between density and pressure for polycrystalline iron obtained from the present experiments is found to be in good agreement with the gas-gun Hugoniot data.Our results show that experiments with samples at lower temperatures under static loading,such as in a diamond anvil cell,lead to higher densities measured than those found under dynamic loading.This means that extrapolating results of static experiments may not predict the dynamic responses of materials accurately.In addition,neither the face-centered cubic structure seen in previous molecular-dynamics simulations or twophase coexistence are found within our experimental pressure range.
作者
Fan Zhang
Jia-Qin Dong
Zhi-Yong Xie
Zhi-Yu He
Hua Shu
Rui-Rong Wang
Jun Xiong
Guo Jia
Zhi-Heng Fang
Wei Wang
Da-Wu Xiao
An-Le Lei
Jie Chen
Xiu-Guang Huang
张帆;董佳钦;谢志勇;贺芝宇;舒桦;王瑞荣;熊俊;贾果;方智恒;王伟;肖大武;雷安乐;陈洁;黄秀光(Collaborative Innovation Center of IFSA(CICIFSA),School of Physics and Astronomy,Center for Ultrafast Science and Technology,Key Laboratory for Laser Plasmas(Ministry of Education),Shanghai Jiao Tong University,Shanghai 200240,China;Shanghai Institute of Laser Plasma,China Academy of Engineering Physics,Shanghai 201800,China;Institute of Materials,China Academy of Engineering Physics,Mianyang 621700,China)
基金
supported by the National Natural Science Foundation of China(Grant Nos.12304033,12072328,and 11991073).
