单轴荷载作用下蟹园砂岩非线性波相互作用试验监测

A. Malcolm, Lauren Coates, K. Moravej, A. Melnikov, Steve Butt, K. Poduska
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引用次数: 0

摘要

当两个波在岩石样品中相互作用时,相互作用的强度很大程度上取决于样品的微观结构性质,包括样品分层的方向。建立这种依赖于分层的研究推测,这些差异是由样品中与层对齐的裂缝引起的。为了验证这一点,我们对螃蟹果园砂岩的类似样品施加了单轴载荷,并测量了非线性相互作用作为施加载荷和层向的函数。结果表明,非线性信号变化与外加载荷呈指数关系,其特征载荷为11.4-12.5 MPa,与样品取向和探测波形(P或S)无关;该值与文献结果一致,但不支持裂纹假设。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental monitoring of nonlinear wave interactions in crab orchard sandstone under uniaxial load
Abstract When two waves interact within a rock sample, the interaction strength depends strongly on the sample’s microstructural properties, including the orientation of the sample layering. The study that established this dependence on layering speculated that the differences were caused by cracks aligned with the layers in the sample. To test this, we applied a uniaxial load to similar samples of Crab Orchard Sandstone and measured the nonlinear interaction as a function of the applied load and layer orientation. We show that the dependence of the nonlinear signal changes on applied load is exponential, with a characteristic load of 11.4–12.5 MPa that is independent of sample orientation and probe wavetype (P or S); this value agrees with results from the literature, but does not support the cracks hypothesis.
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CiteScore
1.50
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