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Strain-time curves of stratified rock samples have a nonlinear trend during stress increasing stage (Figure 10). The samples begin to deform when load is applied, and as the load gradually increases, the evolution of new cracks and the development of native cracks begin inside the samples. The effect of this process on the rheological parameters is significant. In this stage, deformation rates of the samples are an important index to measure the change state of their internal structure. The strain generated by the USH samples is the smallest while that of the USV samples is the largest in the process of load increase. This is caused by the induced tensile stress of horizontal bedding plane compression and the minimum strength in the tensile stress environment. Because the bedding planes in the USH samples are arranged along the direction of the minimum tensile stress and shear stress, the instantaneous strain is the smallest. The maximum instantaneous strain of the USO samples is caused by the bedding plane orientation close to the natural shear plane. The USV samples show intermediate instantaneous strain, which is caused by the decrease of the contact area between the samples and the press plate due to the crack sliding along the bedding plane. On the whole, strain is positively correlated with load in the process of load increase, and its evolution can be expressed as an exponential function relationship with base e, which is ε in=aebσ . [Please download the PDF to view the inline formulas].where ε in is the strain generated during the load increase stage, σ is the load, and a and b are the coefficients. H, O, and V refer to three kinds of structurally anisotropic sandstones with horizontal, oblique, and vertical layered structures, respectively. The coefficient a ranges from 0.0081 to 0.0132, and the coefficient b ranges from 0.0439 to 0.0504. The coefficient a of the USV samples is the minimum value of 0.0081, the coefficient a of the USH samples is the middle value of 0.0096, and the coefficient a of the USO samples is the maximum value of 0.0132. The coefficient b of the USV samples is the largest (0.0504), the coefficient b of the USO samples is in the middle (0.045), and the coefficient b of the USH samples is the lowest (0.0439).
The strain and duration of steady-state creep stage are important indexes to evaluate the mechanical properties of samples, so it is necessary to analyze and evaluate these two parameters for each sample. Under the influence of the native cracks parallel to the bedding, the USH samples have a small response to tensile stress. So the creep strain in the steady-state creep stage is the minimum. Under tensile stress perpendicular to the bedding plane, cracks, pore spaces, and openings exist along the bedding plane, which are the reasons for the large creep strain of the USV samples in the steady creep stage. The main reason for the medium creep strain of the USO samples in the steady creep stage is that the contact area between the samples and the machine tool pressure plate decreases due to the sliding and spalling of the samples layer by layer. There is a nonlinear negative correlation between the duration of steady-state creep stage and the load. It can be seen from the curve that, compared with the USV samples and the USO samples, the USH samples have the longest duration in the steady-state creep stage, followed by the USO samples, and the USV samples have the shortest duration. On the whole, the duration of steady-state creep stage decreases with the increase of load; it can be expressed as a logarithmic relationship, which is ts=alnσ +b (Figure 11). [Please download the PDF to view the inline formulas].where ts is the duration of the steady-state creep stage and σ is the load. The duration of the steady-state creep stage decreases with the increase of the load, indicating that the influence of structural anisotropy on the duration of the steady-state creep stage decreases with the increase of the load. When the load reaches 0.8σ c of the rock sample, the steady-state creep stage lasts for a short time, and the accelerated creep stage has a great influence on the deformation of the sample.
Although Talmy (2000) includes serializing languages in his original typology, much work on RSVCs (implicitly) presupposes that RSVCs are a uniform phenomenon. Based on studies of RSVCs in African and South-East Asian languages, RSVCs are commonly analysed as a form of resultative secondary predication with verbal secondary predicates (e.g. Larson 1991; C. Collins 1997; Stewart 2001). Moreover, other authors have argued that RSVCs are a distinct type of equipollently-framed resultatives, in which the manner and the result verb have equal predicational status (Slobin 2004; Zlatev & Yangklang 2004; Ameka & Essegbey 2013).
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