三向压力试验设备的梁的设计计算

介绍了大型三向压力试验设备的梁的设计,特别是针对梁的薄弱环节——工艺孔,对以往设计中被忽略的剪应力、剪应变的计算及弹性力学有限无法的计算,提出了一些建议。

三向压力作用下盐岩SHPB试验及动力强度研究

为研究盐岩的动力强度,以湖北应城盐矿盐岩为研究对象,利用自主研制的可考虑三向压力作用的分离式Hopkinson压杆(SHPB)试验装置,进行5,15 MPa围压作用下盐岩的动态压缩特性试验研究,获得不同围压与应变率下盐岩的动态应力–应变曲线,并基于联合的热活化与黏性机制相互竞争的材料强度–应变率依赖模型,结合SHPB试验结果进行数据拟合,得到不同围压作用下盐岩的动力强度计算公式,并利用实测数据进行验证,结果表明:在冲击压缩荷载作用下,盐岩的峰值应力和延性有明显的围压效应和应变率效应,峰值应力随应变率的提高而增大,围压对峰值应力和盐岩延性有显著影响;盐岩动力强度计算公式的拟合效果好,误差较小,平均相对误差为2.8%,最大相对误差为7.8%,可为盐岩动力强度研究提供参考。

水泥砂浆体中三向压力传感器的测量特性

确定三向压力传感器实测应力与其周围待测介质初始应力的关系是实现其应力测量的必要条件。为了解三向压力传感器在实际应用中的测量特性,利用RMT岩石力学试验系统对自行研发的三向压力传感器进行标定,研究各个传感面的重复性和线性度,得到各个传感面的标定系数。以水泥砂浆为材料,浇筑制成嵌入三向压力传感器的立方体试样(边长600 mm),并利用自行研制的真三轴试验加载装置,研究重复荷载作用下水泥砂浆体中三向压力传感器实测应力随外部加载应力状态的变化规律。水泥砂浆体的孔隙结构使得三向压力传感器的实测应力存在滞后现象,但在重复荷载作用下,水泥砂浆体中的孔隙结构逐渐被压密,三向压力传感器的实测应力曲线逐渐趋于稳定。静水应力状态加载条件下,三向压力传感器的实测应力与其对应面的加载应力呈线性相关关系;非静水应力条件下,三向压力传感器的实测应力不仅与其对应面的加载应力呈线性相关关系,而且与其对应面的加载应力与其他2个面的加载应力之差也成线性相关关系。在此基础上,提出用于描述介质初始应力状态对三向压力传感器实测应力影响规律的数学关系。

重塑膨胀土三向膨胀变形试验研究

以广西宁明灰白重塑膨胀土为研究对象，运用自制“膨胀土三向胀缩测试仪”开展了不同初始含水率和三向压力的膨胀试验，研究了初始含水率和三向压力对胀限、三向膨胀率的影响规律。试验表明，三向等压时，竖向的膨胀率始终大于水平向膨胀率，比值为1.21～1.27，该比值与初始含水率、三向压力无关；三向膨胀时程均可以分为快速膨胀、缓慢膨胀和趋于稳定3个阶段；胀限与三向压力的对数线性相关，与初始含水率无关；相等初始含水率和干密度条件下，三向膨胀率均与三向压力的对数线性相关。

三向受压状态下再生混凝土的变形性能及损伤分析

为了研究再生混凝土在多应力状态下的变形行为,设计68个圆柱体试件对再生混凝土的取代率、侧向压力、混凝土的龄期,混凝土的强度进行了三向受力试验。试验给出了试件破坏全过程的应力-应变曲线,并深入分析了三轴受压再生混凝土的初始弹性模量、峰值应变、位移延性、能量耗散、损伤演变等性能参数。研究结果表明:龄期、侧向压力越大以及混凝土强度越高,再生混凝土的弹性模量越大;侧向压力可有效提高再生混凝土的变形性能;取代率对延性性能有一定的影响,但对耗能能力影响不大;龄期越大,再生混凝土强度越低,再生骨料服役年限越短,其延性性能和耗能性能越好;侧向压力越大,损伤曲线斜率越小,表明再生混凝土的损伤时间推迟,再生混凝土的损伤受取代率的影响不大。

3D stability analysis method of concave slope based on the Bishop method

In order to study the stability control mechanism of a concave slope with circular landslide, and remove the influence of differences in shape on slope stability, the limit analysis method of a simplified Bishop method was employed. The sliding body was divided into strips in a three-dimensional model, and the lateral earth pressure was put into mechanical analysis and the three-dimensional stability analysis methods applicable for circular sliding in concave slope were deduced. Based on geometric structure and the geological parameters of a concave slope, the influence rule of curvature radius and the top and bottom arch height on the concave slope stability were analyzed. The results show that the stability coefficient decreases after growth, first in the transition stage of slope shape from flat to concave, and it has been confirmed that there is a best size to make the slope stability factor reach a maximum. By contrast with average slope, the stability of a concave slope features a smaller range of ascension with slope height increase, which indicates that the enhancing effect of a concave slope is apparent only with lower slope heights.

流变应力恢复法地应力测试技术研究与应用

为有效实施煤矿深部工程围岩的稳定性计算和巷道支护,必须对地应力有一个准确的估计。流变应力恢复法地应力测试技术,能够成功实施煤矿深部巷道软弱裂隙围岩的地应力测试,实现煤矿深部巷道裂隙软弱围岩地应力场演化过程的长期监测。该技术在平顶山矿区2个矿井进行了应用,结果表明:地应力测量装置实现了顺利安装和观测;孔内定向推杆可以顺利实施三向压力传感器30 m的推进和旋转角度的测量,精度达到0.1°,为计算提供了高精度的方位数据。长期观测结果显示,三项压力传感器能有效感知钻孔围岩的流变过程,实现长期的扰动地应力监测。

Experimental study on mechanical behavior of high performance concrete under multi-axial compressive stress

Experimental investigation was conducted to characterize the responses of high performance concrete(HPC) subjected to multiaxial compressive stresses. The HPC specimens were prepared with three different mix proportions, which corresponds to three different uniaxial compressive strengths. The cubic specimens with size of 100 mm for each edge were tested with servo-hydraulic actuators at different stress ratios. The principal stresses and strains of the specimens were recorded, and the failure of the cubic specimens under various stress states was examined. The experimental results indicated that the stress states and stress ratios had significant influence on the strength and deformation of HPC under biaxial and triaxial compression, especially under triaxial compression. Failure criteria were proposed for the HPC specimens under biaxial and triaxial compressive loading. The test results provided a valuable reference for obtaining multi-axial constitutive law for HPC.