Variation law of microscopic pore of loess-like soil after several freeze-thaw cycles in seasonal frozen soil region

Variation law of microscopic pore of loess-like soil after several freeze-thaw cycles in seasonal frozen soil region

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摘要 In seasonal frozen soil region,the engineering geological properties of loess-like soil will be deteriorated after freeze-thaw cycles.Through the freeze-thaw cycle experiment of remolded loess-like soil,under different freezing temperatures,the authors carried out freeze-thaw cycle tests for 3 times and 20 times,respectively.With mercury intrusion porosimetry and granulometric analysis,from the micro-structure,the authors studied the law that freeze-thaw cycle times and frozen temperature effect on the variation of microscopic pore of loesslike soil.This result can provide theoretical basis for comprehensive treatment of problems in the construction of the project in seasonal frozen loess-like soil region. In seasonal frozen soil region,the engineering geological properties of loess-like soil will be deteriorated after freeze-thaw cycles.Through the freeze-thaw cycle experiment of remolded loess-like soil,under different freezing temperatures,the authors carried out freeze-thaw cycle tests for 3 times and 20 times,respectively.With mercury intrusion porosimetry and granulometric analysis,from the micro-structure,the authors studied the law that freeze-thaw cycle times and frozen temperature effect on the variation of microscopic pore of loesslike soil.This result can provide theoretical basis for comprehensive treatment of problems in the construction of the project in seasonal frozen loess-like soil region.

作者 CHEN Zongfang CHEN Hui'e ZHANG Ying

机构地区 College of Construction Engineering

出处《Global Geology》 2013年第3期154-158,共5页 世界地质（英文版）

关键词 loess-like soil freeze-thaw cycles variation law of microscopic pore granulometric composition 冻融循环试验季节性冻土区黄土状土微观结构变化规律工程地质性质季节性冻土地区毛孔

分类号 P642.131 [天文地球—工程地质学]

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Variation law of microscopic pore of loess-like soil after several freeze-thaw cycles in seasonal frozen soil region

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