GPS在鞍山市城区地壳形变监测中的应用

GPS作为全球卫星定位系统已经成功地应用于军事、交通、大地测量、地壳形变监测等方面。本文所要研究的是将GPS技术应用于地壳形变监测中所采取的测量方法及精度分析。     

连续运行参考站在市政工程测量中布设静态GPS控制网的应用

当使用网络RTK布设工程控制点很难达到预期的精度要求时,我们可以利用参考站高精度的坐标作为静态GPS网的起算点进行控制网布设。本文以北京某市政道路工程为例,介绍了使用这种方法布设GPS平面控制网的方法,并对控制网的精度进行分析。     

强夯法加固夹砂粘土吹填场地的现场试验研究

江苏省连云港赣榆港区陆域采用航道和港池的疏浚土方吹填形成作业港区,吹填工艺以绞吸式疏浚为主,疏浚涉及土层为粘土和砂土,由此形成了粘土和砂土的混合土地基。为了提高地基承载力和均匀性,采用了强夯法对地基进行加固,但是目前对夹砂粘土地基强夯加固的理论和实践较少。为此,以砂夹粘土构成的混合土地基为对象,测试了多种能量单点夯击时的地基土夯沉量、孔压和夯坑周围土体强度等参数,探讨了强夯法加固该类地基的加固深度和水平影响范围。结果表明：对于该类地基而言,有效加固深度修正系数取0.35~0.5为宜;强夯过程中,孔压与强度的增长范围不对应,即孔压影响范围远大于强度影响范围。     

Simplified seismic sidesway collapse analysis of frame buildings

This paper presents the development and assessment of a simplified procedure for estimating the seismic sidesway collapse margin ratio of building structures. The proposed procedure is based on the development of a robust database of seismic peak displacement responses of nonlinear single‐degree‐of‐freedom systems for various seismic intensities and uses nonlinear static (pushover) analysis without the need for nonlinear time history dynamic analysis. The proposed simplified procedure is assessed by comparing its collapse capacity predictions on 72 different building structures with those obtained by nonlinear incremental dynamic analyses. The proposed simplified procedure offers a simple, yet efficient, computational/analytical tool that is capable of predicting collapse capacities with acceptable accuracy for a wide variety of frame building structures. Copyright © 2013 John Wiley & Sons, Ltd.     

高强复合玻璃纤维加固RC梁疲劳性能研究

现有桥梁中有一部分需要进行加固,而采用高强复合玻璃纤维进行加固在国内尚属起步阶段,研究其加固性能,尤其是加固后的疲劳性能是一项有意义的工作。本文进行了高强复合玻璃纤维加固RC梁在重复荷载作用下的弯曲性能试验研究。试验表明:粘贴高强复合玻璃纤维后混凝土梁的疲劳寿命提高了2倍多,其疲劳变形减少了61%~65%,加固梁的疲劳抗裂性能得到了较大改善。因此,粘贴复合玻璃纤维是提高混凝土梁疲劳性能的有效方法,可用于延长混凝土梁的使用寿命。本文还通过加固梁的钢筋应力幅值与疲劳寿命的关系,拟合出S-N曲线。     

局部和全局边界条件的组合

时域局部人工边界是以行波概念为基础的,原则上不能用于模拟零频分量（消减运动）。Ｗｏｌｆ提出了能同时模拟零频分量和行波的双渐近－多向透射边界。本文指出,在这一组合中的双渐近边界的高频渐近项是不合理的,还查能降低模拟精度。据此,本文提出一种概念清楚、简便实用的组合方案－多次射透－静力边界,并通过数值试验对此方案进行检验。     

中国大陆精密重力潮汐改正模型

利用理论和实验重力固体潮模型,充分考虑全球海潮和中国近海潮汐的负荷效应,建立了中国大陆的精密重力潮汐改正模型.结果表明,采用不同的固体潮模型会对重力潮汐结果产生相对变化幅度小于0.06％的差异;在沿海地区海潮负荷的影响约为整个潮汐的4％,而中部地区约为1％,其中中国近海潮汐模型的影响约占整个海潮负荷的10%,内插或外推潮波的负荷约占海潮负荷的3％.通过比较实测的重力数据表明,本文给出的重力潮汐改正模型的精度远远优于0.5×10-8 m·s-2,说明了本文构建的模型的实用性,可为中国大陆高精度重力测量提供有效参考和精密的改正模型.     

Consolidation of inelastic clays under rectangular cyclic loading

This paper presents a semi-analytical solution for one dimensional consolidation problem of inelastic clays under cyclic loading considering the effect of the change of the consolidation coefficient of the soil layer. Due to change of the consolidation coefficient, and time-dependant loading, Terzaghi's theory would not be applicable in cyclic conditions. In this research, a method based on the time variable exchange along with the superimposing rule is employed to overcome these shortcomings. Changes in the consolidation coefficient are applied in the solution by modifying the loading and unloading durations introducing a Virtual Time. Based on the superimposing rule a set of continuous static loads in specified times are used instead of the cyclic load in the transformed time space. Each full cycle of loading is replaced by a pair of static loads with different signs. Based on the Terzaghi's theory the pore-water pressure distribution and the degree of consolidation are calculated for each static load and the results are superimposed. A set of laboratory consolidation tests under cyclic load and numerical analysis are performed in order to verify the presented method. The numerical solution and laboratory tests results showed the accuracy of the presented method.     

A numerical study of the behavior of fully grouted rockbolts under dynamic loading

The widespread preference for rockbolts in providing adequate rock stability in underground mines and man-made cavities make it necessary to obtain a better understanding of the response of these support systems. It is widely accepted that the fully grouted rockbolts provide better roof stability in areas of very poor roof condition which may be caused by high ground stress conditions. There is little information about the in situ behavior of these systems especially under dynamic loading. Hence, to study the behavior of fully grouted rockbolts under dynamic loading, a numerical modeling study was conducted using the FLAC^3D code. In this study the behavior of three types of fully grouted rockbolts were compared with each other including rockbolts with and without head plate and a yielding type one. The results of analyses indicated that under dynamic loading the fully grouted rockbolts without the head plate are incapable of controlling the rock mass movement. Although fully grouted rockbolts with head plate damp a considerable amount of the dynamic energy through friction as these bolts slide within the grout, but the elongation of the rockbolt is not possible due to the rapid breakage of the rockbolt–grout interface. Yielding rockbolts are the best choice for the absorption of the dynamic stress wave and controlling of the rock mass movement. The obtained results show that the optimal design of yielding rockbolt should be in such a way that after dynamic loading, anchoring part of bolt has a limited movement to prevent stress concentration in the shaft of rockbolt and its breakage.