Twinning in bcc metals under shock loading: A challenge to empirical potentials

R. F. Zhang; J. Wang; I. J. Beyerlein; T. C. Germann

doi:10.1080/09500839.2011.615348

Twinning in bcc metals under shock loading: A challenge to empirical potentials

R. F. Zhang
, J. Wang^*
, I. J. Beyerlein
, T. C. Germann

^*此作品的通讯作者

Los Alamos National Laboratory

科研成果: 期刊稿件 › 文章 › 同行评审

62 引用（Scopus）

摘要

Using density functional theory (DFT), we found that high pressures intrinsically favor twinning in niobium by reducing the thickness of a stable twin. Five empirical interatomic potentials for niobium were considered in molecular dynamics (MD) shock simulations. The results show that two potentials exhibit the experimentally observed twinning behavior. Comparing with DFT under high pressure, we found that these two potentials are capable of reproducing the generalized stacking fault (GSF) curve, but the others predict several artificial metastable states along the GSF curve resulting in an artificial structural transformation.

源语言	英语
页（从-至）	731-740
页数	10
期刊	Philosophical Magazine Letters
卷	91
期	12
DOI	https://doi.org/10.1080/09500839.2011.615348
出版状态	已出版 - 12月 2011
已对外发布	是

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title = "Twinning in bcc metals under shock loading: A challenge to empirical potentials",

abstract = "Using density functional theory (DFT), we found that high pressures intrinsically favor twinning in niobium by reducing the thickness of a stable twin. Five empirical interatomic potentials for niobium were considered in molecular dynamics (MD) shock simulations. The results show that two potentials exhibit the experimentally observed twinning behavior. Comparing with DFT under high pressure, we found that these two potentials are capable of reproducing the generalized stacking fault (GSF) curve, but the others predict several artificial metastable states along the GSF curve resulting in an artificial structural transformation.",

keywords = "Atomistic simulations, Deformation twinning, Niobium, Shock compression",

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T2 - A challenge to empirical potentials

AU - Zhang, R. F.

AU - Wang, J.

AU - Beyerlein, I. J.

AU - Germann, T. C.

PY - 2011/12

Y1 - 2011/12

N2 - Using density functional theory (DFT), we found that high pressures intrinsically favor twinning in niobium by reducing the thickness of a stable twin. Five empirical interatomic potentials for niobium were considered in molecular dynamics (MD) shock simulations. The results show that two potentials exhibit the experimentally observed twinning behavior. Comparing with DFT under high pressure, we found that these two potentials are capable of reproducing the generalized stacking fault (GSF) curve, but the others predict several artificial metastable states along the GSF curve resulting in an artificial structural transformation.

AB - Using density functional theory (DFT), we found that high pressures intrinsically favor twinning in niobium by reducing the thickness of a stable twin. Five empirical interatomic potentials for niobium were considered in molecular dynamics (MD) shock simulations. The results show that two potentials exhibit the experimentally observed twinning behavior. Comparing with DFT under high pressure, we found that these two potentials are capable of reproducing the generalized stacking fault (GSF) curve, but the others predict several artificial metastable states along the GSF curve resulting in an artificial structural transformation.

KW - Atomistic simulations

KW - Deformation twinning

KW - Niobium

KW - Shock compression

UR - https://www.scopus.com/pages/publications/84862907670

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SP - 731

EP - 740

JO - Philosophical Magazine Letters

JF - Philosophical Magazine Letters

IS - 12

ER -

Twinning in bcc metals under shock loading: A challenge to empirical potentials

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