Numerical simulation of land subsidence caused by subway train vibration using PFC

Wang, Jianxiu; Deng, Yansheng; Xu, Na; Yang, Tianliang; Yan, Xuexin; Wang, Hanmei; Huang, Xinlei; Liu, Xiaotian; Pei, Xiangjun

doi:https://doi.org/10.5194/piahs-382-559-2020

Articles | Volume 382

https://doi.org/10.5194/piahs-382-559-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/piahs-382-559-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 382

Pre-conference publication

|

22 Apr 2020

Pre-conference publication |

| 22 Apr 2020

Numerical simulation of land subsidence caused by subway train vibration using PFC

Jianxiu Wang, Yansheng Deng, Na Xu, Tianliang Yang, Xuexin Yan, Hanmei Wang, Xinlei Huang, Xiaotian Liu, and Xiangjun Pei

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Total article views: 925 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
564	330	31	925	40	38

HTML: 564
PDF: 330
XML: 31
Total: 925
BibTeX: 40
EndNote: 38

Views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	26	22	2	50
May 2020	29	16	0	45
Jun 2020	51	24	1	76
Jul 2020	67	22	8	97
Aug 2020	24	2	1	27
Sep 2020	4	7	0	11
Oct 2020	7	5	2	14
Nov 2020	14	10	1	25
Dec 2020	11	6	0	17
Jan 2021	22	9	0	31
Feb 2021	4	7	0	11
Mar 2021	8	6	0	14
Apr 2021	5	7	0	12
May 2021	13	7	0	20
Jun 2021	16	6	1	23
Jul 2021	7	5	0	12
Aug 2021	4	6	1	11
Sep 2021	7	3	0	10
Oct 2021	2	16	0	18
Nov 2021	11	14	1	26
Dec 2021	11	4	0	15
Jan 2022	9	4	0	13
Feb 2022	5	5	1	11
Mar 2022	11	3	0	14
Apr 2022	8	9	1	18
May 2022	8	2	0	10
Jun 2022	3	3	0	6
Jul 2022	10	4	0	14
Aug 2022	13	5	0	18
Sep 2022	11	4	0	15
Oct 2022	12	3	0	15
Nov 2022	6	4	1	11
Dec 2022	7	3	0	10
Jan 2023	7	6	0	13
Feb 2023	8	3	0	11
Mar 2023	12	4	0	16
Apr 2023	3	3	0	6
May 2023	5	6	0	11
Jun 2023	8	7	1	16
Jul 2023	1	2	0	3
Aug 2023	7	4	0	11
Sep 2023	10	7	1	18
Oct 2023	4	6	0	10
Nov 2023	3	0	3
Dec 2023	6	2	2	10
Jan 2024	12	2	0	14
Feb 2024	6	4	0	10
Mar 2024	12	12	1	25
Apr 2024	14	9	5	28

Cumulative views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	26	22	2	50
May 2020	29	16	0	45
Jun 2020	51	24	1	76
Jul 2020	67	22	8	97
Aug 2020	24	2	1	27
Sep 2020	4	7	0	11
Oct 2020	7	5	2	14
Nov 2020	14	10	1	25
Dec 2020	11	6	0	17
Jan 2021	22	9	0	31
Feb 2021	4	7	0	11
Mar 2021	8	6	0	14
Apr 2021	5	7	0	12
May 2021	13	7	0	20
Jun 2021	16	6	1	23
Jul 2021	7	5	0	12
Aug 2021	4	6	1	11
Sep 2021	7	3	0	10
Oct 2021	2	16	0	18
Nov 2021	11	14	1	26
Dec 2021	11	4	0	15
Jan 2022	9	4	0	13
Feb 2022	5	5	1	11
Mar 2022	11	3	0	14
Apr 2022	8	9	1	18
May 2022	8	2	0	10
Jun 2022	3	3	0	6
Jul 2022	10	4	0	14
Aug 2022	13	5	0	18
Sep 2022	11	4	0	15
Oct 2022	12	3	0	15
Nov 2022	6	4	1	11
Dec 2022	7	3	0	10
Jan 2023	7	6	0	13
Feb 2023	8	3	0	11
Mar 2023	12	4	0	16
Apr 2023	3	3	0	6
May 2023	5	6	0	11
Jun 2023	8	7	1	16
Jul 2023	1	2	0	3
Aug 2023	7	4	0	11
Sep 2023	10	7	1	18
Oct 2023	4	6	0	10
Nov 2023	3	0	3
Dec 2023	6	2	2	10
Jan 2024	12	2	0	14
Feb 2024	6	4	0	10
Mar 2024	12	12	1	25
Apr 2024	14	9	5	28

Viewed (geographical distribution)

Total article views: 775 (including HTML, PDF, and XML) Thereof 773 with geography defined and 2 with unknown origin.

Country	#	Views	%

1

1

Cited

Latest update: 26 Apr 2024

Short summary

In Shanghai, China, land subsidence is distributed along the belt near a subway line. In order to figure out the mechanical response of the tunnel surroundings, the PFC2D software based on a discrete element method is introduced to simulate the section of the metro tunnel. The linear contact bond model was employed to reflect the characteristics of clay. The mechanical response law and subsidence mechanism were investigated.


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Numerical simulation of land subsidence caused by subway train vibration using PFC

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2 citations as recorded by crossref.