高应力下土与结构接触面抗剪强度研究是当前井壁破裂理论研究的关键之一。
The shear strength between soil and structure interfaces in high stress is one of key research in shaft lining fracture theory.
抗剪强度和剪切变形是砼的基本力学性能,又是强度理论研究和有限元分析的重要数据。
Shear strength and shear strain are the basic properties in mechanics of concrete. They also serve as important data for finite element and failure criterion research on concrete.
理论分析认为这一施工技术对提高碾压混凝土层缝的抗剪强度效果显著。
To increase the shear strength on lift joints of the high roller compacted concrete dam (RCCD), a kind of construction method is brought forward.
本文以非饱和土抗剪强度理论为基础,引入了渗透力的概念,利用有限单元法进行了降雨条件下岩质边坡稳定性的分析。
The paper brings the conception of seepage force and use finite element method to analyze rock slope stability under rainfall, based on unsaturated earth drained shear strength theory.
本文给出了一个适用于表征饱和砂土在往返荷载下强度变化特性的瞬态有效抗剪强度理论。
The transient effective shear-strength theory characterizing the strength change behavior of saturated sand under cyclic loading is presented in this paper.
根据模拟的瞬态渗流场与非饱抗剪强度理论,对思铺滑坡的稳定性和最危险滑动面的时空演化进行了分析。
According to the transient simulation of seepage field and non-saturated shear strength theory, the stability of Sipu landslide and the space-time evolution of the critical slip surface were analyzed.
根据实验结果,探讨基体强度等级和纤维外形对混凝土抗剪性能的影响,并根据材料复合理论建立起钢纤维混凝土抗剪性能的数学计算模型。
Based on the testing results, the influence of matrix strength grades and fiber geometry on shear behaviors was discussed and the mathematics model of shear behaviors was established.
根据实验结果,探讨基体强度等级和纤维外形对混凝土抗剪性能的影响,并根据材料复合理论建立起钢纤维混凝土抗剪性能的数学计算模型。
Based on the testing results, the influence of matrix strength grades and fiber geometry on shear behaviors was discussed and mathematics model of shear behaviors was established.
应用土的抗剪强度理论等经典土壤力学理论从宏观上进行拱泥机器人直行和转向时的受力分析。
Using classical soil mechanics theory the force analysis of bionic move-in-mud robot is processed during linear and turning movement from macroscopic view.
应用土的抗剪强度理论等经典土壤力学理论从宏观上进行拱泥机器人直行和转向时的受力分析。
Using classical soil mechanics theory the force analysis of bionic move-in-mud robot is processed during linear and turning movement from macroscopic view.
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