Experimental and theoretical examination of shock-compressed copper through the fcc to bcc to melt phase transitions

Author:

Sims Melissa1ORCID,Briggs Richard2ORCID,Volz Travis J.2ORCID,Singh Saransh2ORCID,Hamel Sebastien2ORCID,Coleman Amy L.2ORCID,Coppari Federica2ORCID,Erskine David J.2ORCID,Gorman Martin G.2ORCID,Sadigh Babak2ORCID,Belof Jon2ORCID,Eggert Jon H.2ORCID,Smith Raymond F.2ORCID,Wicks June K.1ORCID

Affiliation:

1. Department of Earth and Planetary Sciences, Johns Hopkins University, Baltimore, Maryland 21218, USA

2. Lawrence Livermore National Laboratory, P.O. Box 808, Livermore, California 94550, USA

Abstract

Recent studies show a face-centered cubic (fcc) to body-centered cubic (bcc) transformation along the shock Hugoniot for several metals (i.e., Cu, Au, and Ag). Here, we combine laser-shock compression of Cu foils on nanosecond timescales with in situ x-ray diffraction (XRD) to examine the microstructural changes with stress. We study the fcc phase and the phase transition from fcc to bcc (pressures greater than 180 GPa). Textural analysis of the azimuthal intensities from the XRD images is consistent with transformation into the bcc phase through the Pitsch-distortion mechanism. We use embedded atom model molecular dynamics simulations to determine the stability of the bcc phase in pressure–temperature space. Our results indicate that the bcc phase is stabilized only at high temperatures and remains stable at pressures greater than 500 GPa.

Funder

Lawrence Livermore National Laboratory

SSAA

Argonne National Laboratory

NNSA

Publisher

AIP Publishing

Subject

General Physics and Astronomy

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