钢-混凝土组合梁桥温度场与温度效应研究综述

组合结构桥梁由热工性能差异显著的钢材和混凝土构成,温度效应往往成为控制其设计和应用的关键因素,因此,对其温度场和温度效应进行准确地计算与评估具有重要的科研价值与工程意义。对组合结构桥梁温度场与温度效应开展了综述研究。首先,对各国桥梁规范温度荷载的规定进行归纳对比,讨论不同规范中温度荷载计算方法的特点,总结中国现有规范对全国气候划分的分辨率不足、对日照辐射的考虑不够完善等有待提升之处;其次,对国内外桥梁温度场与温度效应研究的发展与现状进行调研,重点分析中国钢-混凝土组合结构桥梁温度场与温度效应的研究进展,对现有研究的不足进行讨论;再次,提出基于可靠度理论的组合结构桥梁设计温度荷载模型,可使用气象部门统计的温度统计资料,通过MATLAB高效数值模型计算形成组合结构桥梁温度场时程数据,进一步利用极值模型获得桥梁设计的温度荷载代表值,快速、高效地实现对桥梁地理信息、结构参数等因素的考虑;最后,以北京地区典型3跨连续直线组合梁桥为算例,对连续钢-混凝土组合桥梁的温度效应展开研究。提出的基于可靠度理论与MATLAB的钢-混凝土组合结构桥梁设计温度荷载模型,可实现任意地区组合结构桥梁温度场的精确计算并显著提升计算效率。     

路面沥青复合料基于孔隙水压力损坏的实验分析探究

集料-沥青界面强度实验,集料-沥青界面黏合机能影响要素分析,孔隙水压对沥青复合料的损坏原理。本研究经过界面拉拔实验,分析沥青老化、温度和水分等要素对集料-沥青界面黏合机能的影响,探讨车辆载荷作用下孔水压对集料-沥青黏合机能的影响及损坏原理,以为同类沥青复合料路面工程应用提供研究和技术参考。     

正交异性组合桥面构造优化

正交异性组合桥面由于其较好的抗疲劳性能和静力承载能力、相对较轻的自重近年来在实际工程中得到较多应用。正交异性组合桥面通常由正交异性钢板和混凝土层组成,在加入混凝土层后结构刚度发生较大变化,若正交异性板仍采用传统正交异性钢桥面的构造形式将会造成不必要的钢材用量和焊接量增加。采用遗传算法,以单位面积造价最小为目标,结合现有规范考虑了构造约束和承载能力约束两类约束条件,采用两种应力控制方案,对不同桥面板跨度和混凝土厚度的正交异性组合桥面的构造进行优化。同时解决了构造改变导致荷载分配改变对承载能力分析造成的影响。优化结果表明,桥面跨度4.5m时,与未优化组合桥面相比,优化方案用钢量可降低1.7%~10.1%,焊接量可降低16.5%~31.8%。     

Comparing different contour methods with response-based methods for extreme ship response analysis

Environmental contours are often applied in probabilistic structural reliability analysis to identify extreme environmental conditions that may give rise to extreme loads and responses. They facilitate approximate long term analysis of critical structural responses in situations where computationally heavy and time-consuming response calculations makes full long-term analysis infeasible. The environmental contour method identifies extreme environmental conditions that are expected to give rise to extreme structural response of marine structures. The extreme responses can then be estimated by performing response calculations for environmental conditions along the contours.Response-based analysis is an alternative, where extreme value analysis is performed on the actual response rather than on the environmental conditions. For complex structures, this is often not practical due to computationally heavy response calculations. However, by establishing statistical emulators of the response, using machine learning techniques, one may obtain long time-series of the structural response and use this to estimate extreme responses.In this paper, various contour methods will be compared to response-based estimation of extreme vertical bending moment for a tanker. A response emulator based on Gaussian processes regression with adaptive sampling has been established based on response calculations from a hydrodynamic model. Long time-series of sea-state parameters such as significant wave height and wave period are used to construct N-year environmental contours and the extreme N-year response is estimated from numerical calculations for identified sea states. At the same time, the response emulator is applied on the time series to provide long time-series of structural response, in this case vertical bending moment of a tanker. Extreme value analysis is then performed directly on the responses to estimate the N-year extreme response. The results from either method will then be compared, and it is possible to evaluate the accuracy of the environmental contour method in estimating the response. Moreover, different contour methods will be compared.     

A signal decomposition method based on repeated extraction of maximum energy component for offshore structures

Contrary to most signal decomposition methods that usually decompose an original signal into a series of components simultaneously, a novel approach based on repeated extraction of Maximum Energy Component (MEC) is proposed. The approach starts from determination of the MEC referring to the estimated Power Spectral Density (PSD) function, and then represents the MEC by employing an exponential function to fit the original signal. By defining a stopping criterion based on two adjacent estimated PSDs, each MEC can be accurately extracted with an improved performance throughout the entire signal decomposition. To verify the proposed method, a single degree-of-freedom system subject to harmonic loads has been examined. Numerical results show that the analytical response can not only be decomposed into four MECs corresponding to the excitation and the system, respectively, but also provide an accurate estimation of natural frequency and damping ratio of the system. Meanwhile, by observing results from the Ensemble Empirical Mode Decomposition (EEMD), Variational Mode Decomposition (VMD) and Prony based on state-space model (Prony-SS), an improved decomposition accuracy has been achieved from the proposed approach. Furthermore, experimental data from the Norwegian Deepwater Programme and two sets of field-test data from one fixed offshore platform and an offshore wind turbine have been used to demonstrate the correctness of the developed signal decomposition method. It is noted that divergence in results by Prony-SS can be observed when a very large model order is used, while the proposed method provides the better decomposition and reconstruction of signals.     

基于临界面理论的焊接结构多轴疲劳寿命评估方法

目前多轴疲劳理论难以用于实际工程中焊接结构的疲劳寿命评估.文章将等效热点应力法与双参数临界面理论相结合,提出了一种能够应用于复杂焊接结构的多轴疲劳寿命评估方法.分别阐述了双参数临界面法的损伤参数、控制方程以及等效热点应力的定义,给出了焊接结构多轴疲劳寿命的评估过程,并应用有限元数值模拟验证了该方法的可行性.     

不同数值积分方式对海洋结构物疲劳裂纹扩展模拟结果的影响

海洋结构物的疲劳寿命预报是当前的研究热点,文章根据第二作者率领的课题组提出的海洋结构物疲劳寿命预报统一方法比较了疲劳裂纹扩展模拟的三种数值积分方法：逐周数值积分法、△N积分法和△a积分法,并分析了每种方法的适用条件。随后,以中心表面裂纹承受单向交变拉伸载荷的平板为例,分别运用三种方法计算了裂纹扩展寿命和最终裂纹尺寸。同时,研究了△N和△a取值不同对结果的影响。最后,综合考虑计算耗时和计算结果精度,给出了△N积分法和△a积分法的建议值,即△N/N≤1.0%,△a≤0.1 mm。     

聚合物水泥混凝土复合式路面关键技术研究

聚合物水泥混凝土（犘犆犆）复合式路面是针对普通水泥路面的缺陷而提出的一种新型路面结构形式。文章对犘犆犆的材料选择与制备以及路用性能进行了研究,指出犘犆犆在强度、刚度、抗弯拉疲劳性能、耐久性能等方面相对普通水泥混泥土有着明显的优势,同时结合工程实例,分析了犘犆犆复合式路面关键施工技术中存在的问题,并提出相应的解决措施。     

钢-混凝土组合桥面板计算分析

钢-混凝土组合桥面板是通过剪力连接件将混凝土和钢梁结合在一起的一种新型组合结构。以某一特大跨度悬索桥钢-混凝土组合桥面板为例,介绍了钢-混凝土桥面板设计的基本方法,并进行了有限元计算,结果表明设计满足规范要求。     

桩一土一桥梁结构地震台试验数据处理方法

地震模拟振动台试验测点多,加载工况多,采集到的数据量大,且受噪声等因素干扰,测试数据与真实信号间有一定的差别。只有将测试数据经过科学的处理、修正和分析,去伪存真,才能得出正确的试验结果和结论。简要介绍桩一土一桥梁结构相互作用地震模拟振动台试验项目的概况,详细论述该试验数据的处理思路与方法,为以后相关试验研究提供参考。