排序方式: 共有33条查询结果,搜索用时 15 毫秒
1.
Hilbert-Huang变换在密频结构阻尼识别中的应用 总被引:14,自引:3,他引:14
Hilbert—Huang变换是一种新的数据处理方法,由经验模分解(Empirical Mode Decomposition)技术及Hilbert变换两部分组成。本文研究此方法对于密频结构阻尼识别的应用。首先对于两自由度系统模型,说明该方法用于阻尼识别的步骤。进而研究存在频率密集现象的高层建筑的阻尼识别问题。上述结果与理论值及由半功率带宽法的识别值进行了比较,对比显示Hilbert.Huang方法较传统方法具有良好的识别密频结构阻尼的性能,适用于大型结构的系统识别。 相似文献
2.
3.
A reliability based approach for analysis of offloading operations with two identical LNG carriers moored in a side-by-side configuration is suggested. The approach, although adopted for two tankers, is generally applicable to different types of LNG terminals. Different heading controls are conceivable for the discharging vessel in the case that the heading is not fixed: heading toward wind-sea, heading toward swell, heading toward wind and free weather vaning. The analyses show that heading toward the governing sea state is the most beneficial option for two identical LNG carriers moored in a side-by-side configuration. Strategies are discussed for estimation of limiting weather criteria that are consistent with prescribed target failure probabilities. 相似文献
4.
When two vessels are moored side-by-side with a narrow gap between them, intense free surface motions may be excited in the gap as a result of complex hydrodynamic interactions. These influence the motions of the two vessels, and the forces in any moorings. The present paper uses first and second order wave diffraction analysis to investigate this phenomenon. Key theoretical aspects of the numerical analysis are first summarised, including the vital need to suppress “irregular frequency” effects; and results are given to validate the code used. The case of a tanker alongside a large floating FLNG barge is then considered in detail. 相似文献
5.
Seismic bearing capacity of shallow strip footings 总被引:6,自引:0,他引:6
Deepankar?ChoudhuryEmail author Kanakapura?S.?Subba Rao 《Geotechnical and Geological Engineering》2005,23(4):403-418
Seismic bearing capacity of shallow strip footings in soil has been obtained in the form of pseudo-static seismic bearing capacity factors Ncd, Nqd and Nd, denoting the cohesion, surcharge and unit weight components, respectively, by an extensive numerical iteration technique. Limit equilibrium method of analysis with composite failure surface is assumed. The validity of the principle of superposition is examined. Effects of both the horizontal and vertical seismic acceleration coefficients have been found to always reduce the ultimate bearing capacity significantly. Results obtained by the present method of analysis are compared with the available results and are found to be the least in the seismic case. 相似文献
6.
偏压、错台小间距隧道施工位移场动态模拟分析 总被引:2,自引:1,他引:1
采用三维非线性有限元法,对偏压、错台的浅埋小间距隧道在不同开挖顺序下的动态施工过程进行了模拟。通过对位移场的分析,研究了其施工力学特性。由于两隧洞之间的相互影响,并行小间距隧道对围岩的扰动程度大于两独立隧道作用的叠加;相互影响对中间岩柱的作用最为明显,对洞周、地表影响相对较弱。两洞开挖顺序不同,最终位移场的分布规律相同,但量值上存在一定差异。研究给出了在偏压、错台情况下的两洞开挖的合理顺序。 相似文献
7.
运用1个样/1km2、1个组合样/4km2,1个样/(100~1000)km2、1个样/(1000~10000)km2的采样密度系统研究了泛滥平原沉积物的超低密度采样代表性。通过对Sb、As、Ag、Pb、Sn、Na2O元素的地球化学分布模式,W的地球化学特征在不同采样密度间的信息传递,证明了用1个样/(1000~10000)km2的采样密度,采集的泛滥平原沉积物具有代表性 相似文献
8.
Bearing capacity of rectangular footing on reinforced soil 总被引:2,自引:4,他引:2
In the present paper, a method of analysis for calculating the pressure intensity corresponding to a given settlement for
a rectangular footing resting on reinforced soil foundation has been presented. The process has been simplified by presenting
non-dimensional charts for the various terms used in the analysis, which can be directly used by practicing engineers. An
empirical method has been suggested to find out the ultimate bearing capacity of footing on reinforced soil. The results have
been validated with large-scale model tests also. The procedure has been made clear by giving an illustrative example.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
9.
The ultimate bearing capacity of strip footings resting on subsoil consisting of a strong sand layer (reinforced/unreinforced)
overlying a low bearing capacity sand deposit has been investigated. Three principal problems were analysed based on results
obtained from the model tests as follows: (1) the effect of stratified subsoil on the foundations bearing capacity; (2) the
effect of reinforcing the top layer with horizontal layers of geogrid reinforcement on the bearing capacity; (3) effect of
reinforcing stratified subsoil (reinforced and unreinforced) on the settlement of the foundation. It has been observed that
reinforcing the subsoil after replacing the top layer of soil with a well-graded soil is beneficial as the mobilization of
soil-reinforcement frictional resistance will increase. 相似文献
10.