H. Sakuma, D. A. Lockner, J. Solum and N. Davatzes, 2022, Data release for: Friction in clay-bearing faults increases with the ionic radius of interlayer cations

Name: H. Sakuma, D. A. Lockner, J. Solum and N. Davatzes, 2022, Data release for: Friction in clay-bearing faults increases with the ionic radius of interlayer cations
Creator: Hiroshi Sakuma
Published: 2022-04-19T18:28:13.762Z
Keywords: Geophysics, Mineralogy, Tribology

Sakuma, Hiroshi

doi:10.17632/3ydkywhs8b.1

H. Sakuma, D. A. Lockner, J. Solum and N. Davatzes, 2022, Data release for: Friction in clay-bearing faults increases with the ionic radius of interlayer cations

Published: 19 April 2022| Version 1 | DOI: 10.17632/3ydkywhs8b.1

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Hiroshi Sakuma

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The DFT data that support the findings of our study presented in ''Friction in clay-bearing faults increases with the ionic radius of interlayer cations' Communications Earth & Environment, 2022. Data set was used for Figures 2, 3, Supplementary Figures S1, S2, S3, S4, S5, and S6 in that paper. Files contain optimized atomic coordinates, potential energy, and shear force as a function of interlayer distance and shear displacement.

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Busshitsu Zairyo Kenkyu Kiko Kinosei Zairyo Kenkyu Kyoten

H. Sakuma, D. A. Lockner, J. Solum and N. Davatzes, 2022, Data release for: Friction in clay-bearing faults increases with the ionic radius of interlayer cations

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