Articles | Volume 8, issue 1
https://doi.org/10.5194/se-8-177-2017
© Author(s) 2017. This work is distributed under the Creative Commons Attribution 3.0 License.
Research article
| 
16 Feb 2017
Research article |
| 16 Feb 2017
Combined effects of grain size, flow volume and channel width on geophysical flow mobility: three-dimensional discrete element modeling of dry and dense flows of angular rock fragments
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- Final revised paper (published on 16 Feb 2017)
- Preprint (discussion started on 08 Jun 2016)
Interactive discussion
AC: Author comment | RC: Referee comment | SC: Short comment | EC: Editor comment
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- Supplement
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RC1: 'Combined effects of grain size, flow volume and channel width on geophysical flow mobility: 3-D discrete element modeling of dry and dense flows of angular rock fragments', Ming Zhang, 02 Aug 2016
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AC1: 'Answers for Ming Zhang', Bruno Cagnoli, 11 Aug 2016
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RC2: 'Combined effects of grain size, flow volume and channel width on geophysical flow mobility: 3-D discrete element modeling of dry and dense flows of angular rock fragments', Ming Zhang, 23 Aug 2016
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AC2: 'Answers for Ming Zhang 2', Bruno Cagnoli, 23 Aug 2016
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AC2: 'Answers for Ming Zhang 2', Bruno Cagnoli, 23 Aug 2016
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RC2: 'Combined effects of grain size, flow volume and channel width on geophysical flow mobility: 3-D discrete element modeling of dry and dense flows of angular rock fragments', Ming Zhang, 23 Aug 2016
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AC1: 'Answers for Ming Zhang', Bruno Cagnoli, 11 Aug 2016
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SC1: 'Potential paper duplication and minor update of scaling parameter', Ylona van Dinther, 22 Sep 2016
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AC3: 'The channel width effect has never been studied before', Bruno Cagnoli, 28 Sep 2016
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AC3: 'The channel width effect has never been studied before', Bruno Cagnoli, 28 Sep 2016
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RC4: 'Combined effects of grain size, flow volume and channel width on geophysical flow mobility: 3-D discrete element modeling of dry and dense flows of angular rock fragments', Steffen Abe, 07 Dec 2016
