Abstract
Triaxial compressive creep tests were conducted on red sandstones after different thermal treatments. Subsequently, the thermal influence on the axial, lateral and volumetric creep curves under various stress levels was analyzed. The results show that both the instantaneous and time-based deformation behaviors depended largely on the stress and temperature conditions. The instant axial strain increases linearly with increasing deviator stress and the instant deformation modulus decreases non-linearly with temperature. An interesting phenomenon was observed whereby the lateral creep strain had an apparent linear correlation with the axial creep strain. Furthermore, the fitting lines’ slopes of lateral and axial creep strain increase gradually with the increasing deviator stress at identical temperature and first decreases and then increases as temperature is elevated. Then, on the basis of the Burgers creep model and the concept of strain energy, a creep damage model implemented in FLAC3D (Fast Lagrangian Analysis of Continua 3D) is presented, and this model was able to describe the entire creep process completely including primary creep stage, secondary creep stage, and tertiary creep stage comparing with the experimental and theoretical results based on test data and numerical calculations. The influence of two damage parameters on creep curves and the thermal influence on creep parameters are subsequently discussed. Under the same stress level, the parameters K, GM and GK and ηK of creep model decrease with temperature, while the parameter ηM first augments as temperature rise to 300 °C and then decreases as temperature at above 300 °C. The higher is the temperature, the smaller the critical stress ratio (CSR).
Highlights
The exploration and exploitation of deep resources are necessary for the economic and social development for many countries, and require solutions to basic theoretical problems.Compared with conventional fossil fuels, for instance coal and oil, geothermal energy is one of the most abundant sources of energy, which offers great advantages in cost, reliability and environmental friendliness [1,2,3,4]
Energies 2018, 11, 212 post-disaster reconstruction after coal fires and underground coal gasification have experienced high temperature treatments that have a vital influence on their mechanical behavior [16,17]
To better understand the influence of temperature on the creep behavior of brittle rocks, this paper presents the results of triaxial compressive creep tests on red sandstones under confining pressures (σ3 )
Summary
The exploration and exploitation of deep resources are necessary for the economic and social development for many countries, and require solutions to basic theoretical problems. Compared with conventional fossil fuels, for instance coal and oil, geothermal energy is one of the most abundant sources of energy, which offers great advantages in cost, reliability and environmental friendliness [1,2,3,4] This has stimulated further investigation on the mechanical behavior of rock at high pressure and temperature. Numerous researchers have conducted a variety of creep experiments that primarily considered the influence of different mineral component [21], temperature [10,22], water [23,24], pore water pressure [11,25], and stress [26,27,28] on the time-dependent behaviors of various rocks. To better understand the influence of temperature on the creep behavior of brittle rocks, this paper presents the results of triaxial compressive creep tests on red sandstones under confining pressures (σ3 ). A simple creep damage model is proposed considering strain energy and based on a Burgers model
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