分析结果表明:盐岩是一种软岩,围压对盐岩力学性质影响较大;
The results indicate that rock salt is a typical soft rock, The mechanical characteristics of rock salt is strongly dependent on confined pressure.
编制了盐岩流变模型辨识及力学参数反演、井眼缩径规律的计算程序。
And then workout the computational programme to identify the salt rock rheological models and mechanical property inversion, well hole diameter shrinking rule.
因此,为保证核废料地下处置的安全性,研究盐岩在一定温度条件下的物理力学特性十分重要。
So the study of the physical and mechanical properties of heated salt rock is important and essential to ensure the safety of nuclear wastes disposed in salt rock.
最后,根据盐岩三轴蠕变实验结果拟合得到了金坛盐岩的非线性蠕变力学参数。
The creep mechanical parameters of Jintan rock salt are obtained with fitting tests data into the model.
本文结合江苏金坛盐岩地下储气库的实际情况,对江苏金坛盐矿盐岩的力学特性进行了系统的实验研究与理论分析。
Systemic experimental investigation and theoretic analysis on the mechanical aspects of jintan's rock salt have been conducted in the dissertation.
从微观统计的角度出发,通过岩石细观力学的分析、综合,修正前人的研究成果,从而建立温度—应力耦合下的盐岩损伤方程。
Based on previous studies and with the relation of statistical mechanics and fractal rock mechanics, the damage formulation of the coupled damage of temperature and mechanics is deducted.
由于其有利的地质条件及优良的物理力学特性,盐岩被视为是核废料地质处置的理想场所。
Salt rock is regarded as the ideal host rock for nuclear waste disposal due to its advantageous geological conditions and physico-mechanical properties.
分析表明,两盐矿的盐岩表现出许多共同的力学特性,但在量值上却有差异。
The experimental results indicated that the rock salts from two different places exhibit similar mechanical behaviors though there are some quantitative discrepancies.
层状盐岩的这一特殊力学特性对于在深部层状盐岩构造中开展能源储备是非常有利的。
The strong interface property of layered salt rocks will guarantee the sealability and stability of salt caverns, and benefit the energy(oil and gas) storage in layered salt rocks formation in depth.
层状盐岩的这一特殊力学特性对于在深部层状盐岩构造中开展能源储备是非常有利的。
The strong interface property of layered salt rocks will guarantee the sealability and stability of salt caverns, and benefit the energy(oil and gas) storage in layered salt rocks formation in depth.
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