Study on Characteristic Strength and Constitutive Model of Red Sandstone under Hydraulic Coupling

Author:

Li XinweiORCID,Yao ZhishuORCID,Huang XianwenORCID,Liu Xiaohu,Wang XuesongORCID

Abstract

The newly built shaft in the western region needs to pass through the deep Cretaceous stratum, where the pores and fissures are developed, the cementation ability is poor, and the surrounding rock is rich in water. Under the coupling effect of the stress field and seepage field, the surrounding rock is easy to deteriorate and loses stability. The hydraulic coupling test of Cretaceous red sandstone was carried out by using the TAW-2000 rock mechanics testing system, and the characteristic strength evolution law of red sandstone was analyzed; Mohr’s circle and strength envelope were obtained by the M–C criterion, and the influence mechanism seepage pressure on red sandstone was explored; and combined with the effective stress principle and M–C strength criterion, a constitutive model under hydraulic coupling was established. Confining pressure limits the development of cracks and strengthens the mechanical properties. The results revealed that red sandstone has the characteristics of low less clay, loose particles, and weak cementation capacity; under the action of water pressure, the cement between particles disintegrates and loses the cementation strength, resulting in a significant decrease in cohesion, and the loss of cementation strength is the internal reason for the softening of red sandstone. The constitutive model based on the effective principle and M–C criterion can better reflect the mechanical behavior of red sandstone under hydraulic coupling. This paper provides a research basis for understanding the microscopic characteristics and hydraulic coupling characteristics of Cretaceous weakly cemented sandstone.

Funder

Graduate research project of Anhui Provincial Department of Education

China Scholarship Council

Anhui Provincial College of Natural Science Research Key Project

China Postdoctoral Science Foundation

Jiangxi Geological Environment and Underground Space Engineering Research Center

State Key Laboratory of Nuclear Resources and Environment

Engineering Research Center of the Ministry of Education of Mine Underground Engineering

Publisher

MDPI AG

Subject

Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science

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