基于高低的高速铁路简支梁徐变上拱识别方法

研究目的:现有监测手段难以高效经济地测量高速铁路全线简支梁的徐变上拱量,但可以通过分析轨道动态检测数据实现有效识别。因此,本文选取我国某高速铁路长达7年的检测数据,结合小波分解、极值点搜寻和概率分布拟合,对每一跨简支梁的高低波形进行识别,然后通过波形关键点识别简支梁徐变上拱量,并研究其发展规律。研究结论:(1)波形识别算法对24 m梁和32 m梁的识别准确率分别为94.3%和96.4%;(2)简支梁徐变上拱与混凝土徐变的发展规律相近,利用最小二乘法拟合得到了上拱量发展曲线;(3)在线路开通运营6年后,24 m梁上拱量的中位数在1.5~2.0 mm之间,32 m梁上拱量的中位数在2.0~2.6 mm之间,简支梁徐变上拱的发展趋于平缓,未来的发展空间有限;(4)本研究成果对掌握高铁桥梁变形状态和指导线路养护维修具有参考价值。     

船舶碰撞后的处理

从船舶碰撞责任的基础知识出发，结合运实务，指出了碰撞发生后的处理程序，对船长及船东在发生此类海事后的处理方法提供了参考，有一定的指导意义。     

某深厚软土路基处理方案分析

某高速公路沿线大部分路段为软土路基。其中一桥头段位于深厚软土路基上,根据工后沉降的要求,采用了带桩帽的预应力管桩 土工格栅垫层的处理形式。经过对现场试验数据分析,表明该种处理方法效果较好,具有处理深度大、质量易保证、工后沉降小等突出优点,可以作为类似软基处理设计时参考。     

山区公路路基沉陷注浆加固施工技术

阐述山区公路路基沉陷注浆加固的机理,注浆机具的选择,注浆材料的选定以及主要注浆施工工艺及效果检查等施工技术。     

论港口建设工程造价的全过程管理

港口建设工程造价的控制与管理是一个动态的过程,文中重点分析了在项目投资决策阶段、项目设计阶段、项目实施阶段和竣工阶段全过程造价管理的方法与侧重点,以提高投资效益。     

船舶总纵极限强度模糊可靠性研究

本文以模糊数学和结构可靠性基本理论为基础,分析了传统随机可靠性理论的不足,并在常规模糊可靠性理论研究的基础上,利用模糊集合与普通集合之间的转换关系,研究了模糊变量组合时的可靠性计算方法,拓展了模糊可靠性理论的使用范围.通过对模糊可靠度计算结果分析发现,模糊可靠性理论使设计更加科学,更加符合工程实际;模糊变量组合在船舶总纵极限强度可靠性上的应用,避免了传统计算方法由于变量统计数据不足而导致的偏差,减少了很多繁复的数学运算.算例分析验证了本文方法的准确性和实用性.     

软基处理技术在集丰高速公路中的应用

结合集丰高速公路软弱地基的工程地质特征,介绍相应的软基处理技术以及软基沉降观测分析。工程实践表明,其软基处理方案经济可行,效果良好。     

清水冲刷河床调整过程试验研究

通过沙质河床清水冲刷水槽试验,对河床纵剖面的调整、沙波尺度、粗化层厚度及其与沙波运动关系、粗化层级配、推移质级配等进行了观测分析,进一步揭示了清水冲刷,河床重建平衡的机理。水槽试验表明,沙质河床清水冲刷,上游河段比降调平,床沙粗化,沙波发育,河床阻力增大,水深增大,流速减小,导致河床供沙能力削弱,输沙能力降低,冲刷向不冲刷转化。     

Using longitudinal methods for analysis of a short-term transportation demonstration project

This paper documents an application of panel, or longitudinal data collection in the evaluation of a TSM (Transportation Systems Management) demonstration project. The project was a four-week demonstration of staggered work hours in downtown Honolulu during February–March 1988. The 4 wave panel survey elicited commuting experiences of approximately 2,000 downtown employees at two week intervals before and during the project. The sample involved both employees who participated in the project by shifting their work hours, and those who did not. The panel survey was augmented by floating-car observations of travel times on major routes into downtown Honolulu on the same four dates.The purpose of the analysis was to determine whether employee commute times were affected, and if so, how these changes were distributed among various employee segments. Two methods were used. First, travel time changes were estimated using paired t-tests. Second, regression equations were used to estimate project time savings as a function of trip length, route, and location of residence. Results show that travel time savings due to the project were typically small, less than ten percent. Nonparticipants experienced greater savings than participants, and some segments of participants experienced longer travel times during the project. The panel method proved to be an effective way to measure project travel time impacts and shows that the method is appropriate in short time applications.Presented at the Annual Meeting of Transportation Research Board, January 7–11. 1990, Washington, D.C.     

多层住宅地基不均匀沉降的防治措施

本文介绍了多层住宅地基不均匀沉降产生的原因及防治措施。