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刘宽, 叶万军, 景宏君, 段旭, 张吉. 季冻区黄土微观损伤识别与宏观力学响应研究[J]. 岩土工程学报, 2021, 43(S1): 192-197. DOI: 10.11779/CJGE2021S1035
引用本文: 刘宽, 叶万军, 景宏君, 段旭, 张吉. 季冻区黄土微观损伤识别与宏观力学响应研究[J]. 岩土工程学报, 2021, 43(S1): 192-197. DOI: 10.11779/CJGE2021S1035
LIU Kuan, YE Wan-jun, JING Hong-jun, DUAN Xu, ZHANG Ji. Microscopic damage identification and macroscopic mechanical response of loess in seasonal frozen areas[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(S1): 192-197. DOI: 10.11779/CJGE2021S1035
Citation: LIU Kuan, YE Wan-jun, JING Hong-jun, DUAN Xu, ZHANG Ji. Microscopic damage identification and macroscopic mechanical response of loess in seasonal frozen areas[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(S1): 192-197. DOI: 10.11779/CJGE2021S1035

季冻区黄土微观损伤识别与宏观力学响应研究

Microscopic damage identification and macroscopic mechanical response of loess in seasonal frozen areas

  • 摘要: 针对冻融循环对天然黄土结构性和力学性质的影响,制备不同含水率的原状黄土试样,通过冻融作用下的质子核磁共振(1H NMR)测试、扫描电镜(SEM)观测及三轴剪切试验,研究了季冻区黄土微观结构损伤规律与宏观力学响应机制。试验结果表明:土体微观结构受冻融影响显著,孔隙体积、颗粒形状系数均先后出现波动-增长期和平衡-稳定期,孔隙体积在前6次冻融循环期间增幅显著,10次后趋缓;含水率高的试样,冻融前后颗粒形状系数更高;相比冻融循环,试样应力-应变曲线形态更受含水率控制;冻融循环对试样破坏强度的劣化效应很显著,且主要集中在前10次;黏聚力随冻融次数增加呈指数衰减,但整体减幅随含水率增加而降低,内摩擦角则增幅甚微;含水率高的试样,破坏强度和黏聚力衰减至平衡所需的冻融次数均更少;冰水相变引发冻胀应力和水分迁移势反复加卸载于土骨架,驱动微观结构产生不可逆损伤应是黄土宏观力学性质劣化的潜在机制。

     

    Abstract: Considering the influences of freeze-thaw cycles(FTCs)on the structural and mechanical properties of the natural loess, the intact loess samples with different moisture contents are prepared.The proton nuclear magnetic resonance(1H NMR)and the scanning electron microscope(SEM)as well as the triaxial shear tests under FTCs are carried out, and the microstructual damage law and the macroscopic mechanical response mechanism of loess in seasonal frozen regions are studied.The test results indicate that the evolution of the soil microstructure is affected by FTCs significantly.Both the pore volume and the particle shape coefficient go through a fluctuation-growth period and an equilibrium-stable period successively.The pore volume increases markedly during the first six FTCs, and then slowes down after ten FTCs.The sample with high water content owns higher particle shape coefficient before and after FTCs.Compared with FTCs, the shape of stress-strain curve is governed by the moisture content more obviously.The degradation effect of FTCs on the failure strength of specimens is prominent, and is mainly embodied in the first ten cycles.The cohesion decreases exponentially with the increase of FTCs, while the overall attenuation amplitude decreases with the increase of water content, and the internal friction angle increases slightly.For the samples with high moisture content, fewer FTCs are required for the failure strength and cohesion tending to equilibrium.The frost-heaving stress and the moisture migration potential caused by phase change between water and ice loading-unloading repeatedly on the soil skeleton, induce the irreversible damage of microstructure, which is the potential mechanism of degradation of macroscopic mechanical properties of loess.

     

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