Uniaxial compression characteristics of frozen soil–rock mixture

IF 5.7 1区工程技术 Q1 ENGINEERING, GEOLOGICAL

Acta Geotechnica Pub Date : 2025-06-07 DOI:10.1007/s11440-025-02672-1

Junlin Zhao, Pei Zhang, Qianqian Li, Liyun Peng, Jilin Qi

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Abstract

In the construction of cold region engineering and artificial freezing engineering, soil–rock mixture (SRM) is a frequently encountered geomaterial. Understanding the mechanical properties of frozen SRM is crucial for ensuring construction safety. In this paper, frozen SRM is considered as a multiphase material consisting of a soil matrix and rock. By employing a single-variable approach, the relationship between UCS and rock content was revealed, and the effects of rock content on the stress–strain curve shape and failure mode were analyzed. The test results indicate that rock content significantly influences the stress–strain curve and failure mode of SRM. The specimen preparation with different rock content is unified using a given relative compactness. The uniaxial compressive strength (UCS) of the frozen specimens increases firstly and then decreases as rock content increases, which is unaffected by temperature or rock size. The classic quadratic polynomial is suggested to describe the variation rule. The failure modes of specimens with low, medium and high rock content correspond to shear failure, bulge failure and splitting failures, respectively, which transmits from shear failure to splitting failure as the rock content increases.

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冻土-岩石混合体的单轴压缩特性

在寒区工程和人工冻结工程的施工中，土石混合体是经常遇到的一种岩土材料。了解冻结SRM的力学特性对保证施工安全至关重要。本文将冻结SRM视为由土基质和岩石组成的多相材料。采用单变量方法，揭示了单轴抗压强度与岩石含量之间的关系，分析了岩石含量对应力-应变曲线形态和破坏模式的影响。试验结果表明，岩石含量显著影响了SRM的应力-应变曲线和破坏模式。用给定的相对压实度统一不同岩石含量的试样制备。冻结试样的单轴抗压强度随岩石含量的增加先升高后降低，不受温度和岩石尺寸的影响。建议用经典的二次多项式来描述变化规律。低、中、高含岩量试件的破坏模式分别为剪切破坏、胀破破坏和劈裂破坏，并随着含岩量的增加由剪切破坏向劈裂破坏传递。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Geotechnica ENGINEERING, GEOLOGICAL-

CiteScore

9.90

自引率

17.50%

发文量

297

审稿时长

4 months

期刊介绍： Acta Geotechnica is an international journal devoted to the publication and dissemination of basic and applied research in geoengineering – an interdisciplinary field dealing with geomaterials such as soils and rocks. Coverage emphasizes the interplay between geomechanical models and their engineering applications. The journal presents original research papers on fundamental concepts in geomechanics and their novel applications in geoengineering based on experimental, analytical and/or numerical approaches. The main purpose of the journal is to foster understanding of the fundamental mechanisms behind the phenomena and processes in geomaterials, from kilometer-scale problems as they occur in geoscience, and down to the nano-scale, with their potential impact on geoengineering. The journal strives to report and archive progress in the field in a timely manner, presenting research papers, review articles, short notes and letters to the editors.