Study on the Conventional Uniaxial Mechanical Properties and Micro-Mechanism of Sandstone under Dry–Wet Cycles

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-11-29 DOI:10.3390/jcs7120494

Jinsong Zhang, Shilong Peng, Yudi Yang

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Abstract

Dry–wet cycling has a significant impact on the mechanical properties of rocks, and a series of problems such as rock collapse can occur in rock masses under long-term dry–wet cycling. Based on this, some mechanical tests were carried out on sandstone under different dry–wet cycles to analyze the evolution law of its physical and mechanical parameters. The results show that the internal connection of the mineral becomes looser, the drying quality of the sample decreases, and the water absorption quality increases gradually under different dry–wet cycles. The peak strength of the sample decreases first and then increases with increasing dry–wet cycles. The change trend of the elastic modulus and deformation modulus with the increase in dry–wet cycles are similar to the peak strength, which is mainly related to the change in the connection between particles. Furthermore, the specimens showed axial tensile failure under uniaxial action. With the increase in dry–wet cycles, the tensile crack on the surface of the specimen increased, and the fracture of the specimen became looser. The specimen exhibited block spalling when the number of dry–wet cycles was eight times.

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干湿循环条件下砂岩的常规单轴力学性能和微观力学研究

干湿循环对岩石的力学性能有很大影响，岩体在长期干湿循环作用下会出现岩石坍塌等一系列问题。基于此，我们对不同干湿循环条件下的砂岩进行了力学试验，分析其物理力学参数的演变规律。结果表明，在不同的干湿循环条件下，矿物内部的连接变得松散，样品的干燥质量下降，吸水质量逐渐增加。随着干湿循环次数的增加，样品的峰值强度先降低后升高。随着干湿循环次数的增加，弹性模量和变形模量的变化趋势与峰值强度相似，这主要与颗粒间连接的变化有关。此外，试样在单轴作用下出现轴向拉伸破坏。随着干湿循环次数的增加，试样表面的拉伸裂纹增加，试样的断裂变得松散。当干湿循环次数达到八次时，试样出现了块状剥落。

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