Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil

Xu Ji; Qiang Xu; Lanting Wei

doi:10.1007/978-981-99-9057-3_40

Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil

Xu Ji, Qiang Xu^*, Lanting Wei

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Loess slope failure caused by static liquefaction can result in a great number of fatalities. However, the influence of grading on the mechanical responses of saturated loess, especially its critical states and liquefaction potential, remains unclear. Loess collected from a typical silty loess zone on the northwestern part of the Chinese Loess Plateau where loess flowslides have widely occurred was studied. Detailed experimental research using undrained standard triaxial tests was carried out on artificial and natural loess soils with various gradings under saturated states. The results reveal that during undrained shearing, the critical state lines moved downward and rotated synchronously from the natural grading position as the fines content decreased, until reversed shift occurred at a fines content of around 25%. For a similar global void ratio and lower confining stresses, the potential for flow liquefaction of loess soils showed a reverse pattern with increased fines content. While they became stronger monotonously with the addition of fines under higher stresses. Additionally, the applicability of the intergranular and interfine state variables in analyzing the undrained fragility of the loess soils was discussed. The patterns obtained from these laboratory tests provide some new insights into the influence of grading on the static liquefaction of loess soils, as well as new information for risk mitigation of loess flowslides.

Original language	English
Title of host publication	Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China
Subtitle of host publication	Volume 1: Engineering Geomechanics of Rock and Soil Masses
Editors	Sijing Wang, Runqiu Huang, Rafig Azzam, Vassilis P. Marinos
Publisher	Springer
Pages	549-561
Number of pages	13
ISBN (Electronic)	9789819990573
ISBN (Print)	9789819990566
DOIs	https://doi.org/10.1007/978-981-99-9057-3_40
Publication status	Published - 19 Sept 2024
Event	14th International Association for Engineering Geology and the Environment 2023 - Chengdu, China Duration: 21 Sept 2023 → 27 Sept 2023

Publication series

Name	Environmental Science and Engineering
ISSN (Print)	1863-5520
ISSN (Electronic)	1863-5539

Conference

Conference	14th International Association for Engineering Geology and the Environment 2023
Abbreviated title	IAEG 2023
Country/Territory	China
City	Chengdu
Period	21/09/23 → 27/09/23

Keywords

Critical states
Liquefaction
Loess
Shearing behaviour
Soil grading

ASJC Scopus subject areas

Environmental Engineering
Information Systems

Access to Document

10.1007/978-981-99-9057-3_40

Cite this

Ji, X., Xu, Q., & Wei, L. (2024). Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil. In S. Wang, R. Huang, R. Azzam, & V. P. Marinos (Eds.), Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China: Volume 1: Engineering Geomechanics of Rock and Soil Masses (pp. 549-561). (Environmental Science and Engineering). Springer. https://doi.org/10.1007/978-981-99-9057-3_40

Ji, Xu ; Xu, Qiang ; Wei, Lanting. / Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil. Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China: Volume 1: Engineering Geomechanics of Rock and Soil Masses. editor / Sijing Wang ; Runqiu Huang ; Rafig Azzam ; Vassilis P. Marinos. Springer, 2024. pp. 549-561 (Environmental Science and Engineering).

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title = "Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil",

abstract = "Loess slope failure caused by static liquefaction can result in a great number of fatalities. However, the influence of grading on the mechanical responses of saturated loess, especially its critical states and liquefaction potential, remains unclear. Loess collected from a typical silty loess zone on the northwestern part of the Chinese Loess Plateau where loess flowslides have widely occurred was studied. Detailed experimental research using undrained standard triaxial tests was carried out on artificial and natural loess soils with various gradings under saturated states. The results reveal that during undrained shearing, the critical state lines moved downward and rotated synchronously from the natural grading position as the fines content decreased, until reversed shift occurred at a fines content of around 25%. For a similar global void ratio and lower confining stresses, the potential for flow liquefaction of loess soils showed a reverse pattern with increased fines content. While they became stronger monotonously with the addition of fines under higher stresses. Additionally, the applicability of the intergranular and interfine state variables in analyzing the undrained fragility of the loess soils was discussed. The patterns obtained from these laboratory tests provide some new insights into the influence of grading on the static liquefaction of loess soils, as well as new information for risk mitigation of loess flowslides.",

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author = "Xu Ji and Qiang Xu and Lanting Wei",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.; 14th International Association for Engineering Geology and the Environment 2023, IAEG 2023 ; Conference date: 21-09-2023 Through 27-09-2023",

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Ji, X, Xu, Q & Wei, L 2024, Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil. in S Wang, R Huang, R Azzam & VP Marinos (eds), Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China: Volume 1: Engineering Geomechanics of Rock and Soil Masses. Environmental Science and Engineering, Springer, pp. 549-561, 14th International Association for Engineering Geology and the Environment 2023, Chengdu, China, 21/09/23. https://doi.org/10.1007/978-981-99-9057-3_40

Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil. / Ji, Xu; Xu, Qiang; Wei, Lanting.
Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China: Volume 1: Engineering Geomechanics of Rock and Soil Masses. ed. / Sijing Wang; Runqiu Huang; Rafig Azzam; Vassilis P. Marinos. Springer, 2024. p. 549-561 (Environmental Science and Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil

AU - Ji, Xu

AU - Xu, Qiang

AU - Wei, Lanting

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

PY - 2024/9/19

Y1 - 2024/9/19

N2 - Loess slope failure caused by static liquefaction can result in a great number of fatalities. However, the influence of grading on the mechanical responses of saturated loess, especially its critical states and liquefaction potential, remains unclear. Loess collected from a typical silty loess zone on the northwestern part of the Chinese Loess Plateau where loess flowslides have widely occurred was studied. Detailed experimental research using undrained standard triaxial tests was carried out on artificial and natural loess soils with various gradings under saturated states. The results reveal that during undrained shearing, the critical state lines moved downward and rotated synchronously from the natural grading position as the fines content decreased, until reversed shift occurred at a fines content of around 25%. For a similar global void ratio and lower confining stresses, the potential for flow liquefaction of loess soils showed a reverse pattern with increased fines content. While they became stronger monotonously with the addition of fines under higher stresses. Additionally, the applicability of the intergranular and interfine state variables in analyzing the undrained fragility of the loess soils was discussed. The patterns obtained from these laboratory tests provide some new insights into the influence of grading on the static liquefaction of loess soils, as well as new information for risk mitigation of loess flowslides.

AB - Loess slope failure caused by static liquefaction can result in a great number of fatalities. However, the influence of grading on the mechanical responses of saturated loess, especially its critical states and liquefaction potential, remains unclear. Loess collected from a typical silty loess zone on the northwestern part of the Chinese Loess Plateau where loess flowslides have widely occurred was studied. Detailed experimental research using undrained standard triaxial tests was carried out on artificial and natural loess soils with various gradings under saturated states. The results reveal that during undrained shearing, the critical state lines moved downward and rotated synchronously from the natural grading position as the fines content decreased, until reversed shift occurred at a fines content of around 25%. For a similar global void ratio and lower confining stresses, the potential for flow liquefaction of loess soils showed a reverse pattern with increased fines content. While they became stronger monotonously with the addition of fines under higher stresses. Additionally, the applicability of the intergranular and interfine state variables in analyzing the undrained fragility of the loess soils was discussed. The patterns obtained from these laboratory tests provide some new insights into the influence of grading on the static liquefaction of loess soils, as well as new information for risk mitigation of loess flowslides.

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Ji X, Xu Q, Wei L. Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil. In Wang S, Huang R, Azzam R, Marinos VP, editors, Engineering Geology for a Habitable Earth: IAEG XIV Congress 2023 Proceedings, Chengdu, China: Volume 1: Engineering Geomechanics of Rock and Soil Masses. Springer. 2024. p. 549-561. (Environmental Science and Engineering). doi: 10.1007/978-981-99-9057-3_40

Influence of Grading on the Undrained Flow Instability of Saturated Loess Soil

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