Characteristics of Microstructural Changes of Malan Loess in Yan’an Area during Creep Test

Characteristics of Microstructural Changes of Malan Loess in Yan’an Area during Creep Test

The shortage of land resources on the Loess Plateau has long been a thorny problem. Many high-fill projects are carried out, accompanied by a series of geological hazards, which threaten the ecological environment and personal safety. The creep characteristics of loess are an essential part of loess...

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Veröffentlicht in:Water (Basel) 2022-02, Vol.14 (3), p.438
Hauptverfasser: Li, Zhenxiao, Wang, Jiading, Yang, Shuai, Liu, Shehu, Li, Yongwei
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
China
Creep tests
Geology
Human engineering
Land resources
Landslides
Loess
Microstructure
Process parameters
Qualitative analysis
Rivers
Sand & gravel
Scanning electron microscopy
Soil erosion
Stress state
Tomography
Topography
Valleys
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container_issue 3
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creator Li, Zhenxiao
Wang, Jiading
Yang, Shuai
Liu, Shehu
Li, Yongwei
description The shortage of land resources on the Loess Plateau has long been a thorny problem. Many high-fill projects are carried out, accompanied by a series of geological hazards, which threaten the ecological environment and personal safety. The creep characteristics of loess are an essential part of loess landslide research. The microstructural changes are closely related to creep behavior. By conducting triaxial creep experiments on Malan loess from the Yan’an area in China, scanning electron microscope (SEM) experiments on loess in different creep stages were carried out. Using qualitative and quantitative analyses of the microstructural characteristics of intact loess and remodeled loess during creep, the microstructural parameters were compared, and finally, the microscopic mechanisms during creep were analyzed. The qualitative analysis of remodeled loess during creep returned significantly higher results than it did for intact loess. During the creep process, among the microstructural parameters of loess change, the change in pore and particle size and shape were the most obvious, while the complexity of other microstructural parameters and orientation changed little. During the creep process of loess, the soil skeleton changed continuously, but the loess microstructure featured different changes at different levels of deviator stress.
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Many high-fill projects are carried out, accompanied by a series of geological hazards, which threaten the ecological environment and personal safety. The creep characteristics of loess are an essential part of loess landslide research. The microstructural changes are closely related to creep behavior. By conducting triaxial creep experiments on Malan loess from the Yan’an area in China, scanning electron microscope (SEM) experiments on loess in different creep stages were carried out. Using qualitative and quantitative analyses of the microstructural characteristics of intact loess and remodeled loess during creep, the microstructural parameters were compared, and finally, the microscopic mechanisms during creep were analyzed. The qualitative analysis of remodeled loess during creep returned significantly higher results than it did for intact loess. During the creep process, among the microstructural parameters of loess change, the change in pore and particle size and shape were the most obvious, while the complexity of other microstructural parameters and orientation changed little. During the creep process of loess, the soil skeleton changed continuously, but the loess microstructure featured different changes at different levels of deviator stress.</description><identifier>ISSN: 2073-4441</identifier><identifier>EISSN: 2073-4441</identifier><identifier>DOI: 10.3390/w14030438</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Analysis ; China ; Creep tests ; Geology ; Human engineering ; Land resources ; Landslides ; Loess ; Microstructure ; Process parameters ; Qualitative analysis ; Rivers ; Sand &amp; gravel ; Scanning electron microscopy ; Soil erosion ; Stress state ; Tomography ; Topography ; Valleys</subject><ispartof>Water (Basel), 2022-02, Vol.14 (3), p.438</ispartof><rights>COPYRIGHT 2022 MDPI AG</rights><rights>2022 by the authors. Licensee MDPI, Basel, Switzerland. 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Many high-fill projects are carried out, accompanied by a series of geological hazards, which threaten the ecological environment and personal safety. The creep characteristics of loess are an essential part of loess landslide research. The microstructural changes are closely related to creep behavior. By conducting triaxial creep experiments on Malan loess from the Yan’an area in China, scanning electron microscope (SEM) experiments on loess in different creep stages were carried out. Using qualitative and quantitative analyses of the microstructural characteristics of intact loess and remodeled loess during creep, the microstructural parameters were compared, and finally, the microscopic mechanisms during creep were analyzed. The qualitative analysis of remodeled loess during creep returned significantly higher results than it did for intact loess. During the creep process, among the microstructural parameters of loess change, the change in pore and particle size and shape were the most obvious, while the complexity of other microstructural parameters and orientation changed little. During the creep process of loess, the soil skeleton changed continuously, but the loess microstructure featured different changes at different levels of deviator stress.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/w14030438</doi><oa>free_for_read</oa></addata></record>
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subjects Analysis
China
Creep tests
Geology
Human engineering
Land resources
Landslides
Loess
Microstructure
Process parameters
Qualitative analysis
Rivers
Sand & gravel
Scanning electron microscopy
Soil erosion
Stress state
Tomography
Topography
Valleys
title Characteristics of Microstructural Changes of Malan Loess in Yan’an Area during Creep Test
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