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Biaxial creep test study on the influence of structural anisotropy on rheological behaviour of hard rock

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posted on 2024-11-15, 11:24 authored by Chuangzhou Wu, Qingsheng Chen, Sudip Basack, Riqing Xu, Zhenming Shi
Rheological characteristics are one of most important properties needed to be considered for the designing and construction for the long term stability and serviceability of underground structures in the rock mass. Up to date, although extensive studies on the rheological properties of rocks are available in the literature, most of existing studies reported the strain-time data for the axial deformation through compression rheological method and did not mention the lateral deformation, and mainly focused on the soft rocks at shallow depth. Thus, very limited attention has been paid to the rheological properties of deep and hard rock, neglecting the effects of structural anisotropy on the rheological properties. This paper presents a comprehensive in-depth study on the rheological behaviours of super-deep hard rock considering the effects of structural anisotropy by using the uniaxial and biaxial creep tests. The results revealed that significant creep behaviour can be observed in the hard rock specimens under high stress in the in-situ conditions, and the strain-time behaviour of hard rock exhibited brittle failure. The strain-time curves of hard rock exhibited two obvious phases of instantaneous creep and steady state creep without the phase of accelerated creep. Moreover, it was observed that the rheological behaviours, including the instantaneous modulus, transient creep duration, axial and lateral creep deformations, steady state creep rate, volumetric strain and contraction ratio are strongly affected by the structural anisotropy. Based on the experimental data, empirical models of the parameters governing creep behaviour have been established.

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Citation

Wu, C., Chen, Q., Basack, S., Xu, R. & Shi, Z. (2016). Biaxial creep test study on the influence of structural anisotropy on rheological behaviour of hard rock. Journal of Materials in Civil Engineering, 28 (10), 04016104-1-04016104-12.

Journal title

Journal of Materials in Civil Engineering

Volume

28

Issue

10

Pagination

4016104

Language

English

RIS ID

104651

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