在建盾构隧道突发管片破损病害成因分析及治理措施研究北大核心CSCD

盾构法广泛应用于我国城市轨道交通隧道的建设中,盾构管片的病害问题也越发受到重视。文章针对某地铁在建盾构隧道突发管片破损病害,绘制了管片破损病害展布图,分析了相关资料和检测数据,明确了病害的成因机理,制定并实施了相应治理措施。研究结果表明:管片背后大范围空洞导致围岩对隧道的约束不足,引起已成型隧道在盾构机反推力和扭矩、同步注浆浆液浮力、刀盘水土压力和扭矩等作用下发生类压杆弯扭失稳是导致该病害的主要原因;隧道变形监测数据表明"背后注浆填充+破损部位修复"两阶段治理措施取得了良好的治理效果;盾构隧道施工过程中,应严格管控同步注浆质量,防止隧道轴线偏移引起盾构管片发生开裂破损等病害。     

纤维增强复合材料拉伸破坏过程的Monte-Carlo模拟

基于剪切滞后模型,采用影响函数叠加方法,得到复合材料在多纤维断裂下的应力场,包含了基体和界面塑性变形的影响.考虑纤维强度的统计特性,结合Monte-Carlo方法模拟丫复合材料在拉伸载荷作用下的累计破坏过程.结果表明:复合材料拉伸强度的尺寸效应与纤维强度分布的统计性质以及微观损伤诱发的应力重分配有关.文中的研究为进一步发展基于破坏机理分析的复合材料在热/机械载荷作用下的疲劳寿命预测理论奠定了基础.     

国外激光告警技术的设备与发展

激光告警技术在现代战争中发挥着越来越重要的作用。文章介绍了激光侦察告警技术的发展历程以及装备的研制、改进情况,指出了在现代战争中发展激光侦察告警技术的优势和重要性,重点探讨了几种激光侦察告警设备性能及其特点,最后论述了激光侦察告警技术与设备的发展动向与分析。     

无线电引信自动测试技术综述

介绍了无线电引信测试技术的发展历程和现状,阐述了国内外无线电引信测试的总体技术和方案,重点分析了引信灵敏度测试的必要性和原理,并对无线电引信测试的发展趋势进行了论述。     

浅谈金融危机下海事监管对策

文中通过透视2008年金融危机所引起的航运业的潮起潮落,指出了航运业与造船业在不景气的情况下所存在的问题,并分析了在这特殊时段海事部门应当如何做好监管与服务工作,提出了笔者一点浅显的意见。     

内河敞口集装箱船航行至洋山港适航技术要求解析

为了提升洋山港集装箱集散速度,提出了将现有内河集装箱船适当改建后投入长江至洋山港特定航线的方案。叙述内河敞口集装箱船营运洋山港区特定航线必须满足的适航技术要求,船公司应注意并必须采取的技术措施以保证船舶的安全性。     

集装箱码头800M数字集群通信系统制式的选择

介绍了数字集群通信系统的特点,对数字集群系统两种制式作了比较。分析了集装箱码头对通信系统的要求和目前国内iDEN系统的运行状态。     

松花江干流大顶子山航电枢纽工程库区蓄冰处理及枢纽导冰措施研究

通过实地调研、原型观测、现场实验等手段和方法对“水库冰冻对通航的影响问题及降低和消除影响措施已是目前急需解决的关键问题”进行了较系统的研究,提出了水库蓄冰处理及枢纽导冰措施方案,并在工程运行中得到验证,取得了预期的效果。     

On the numerical accuracy of the prediction of resistance coefficients in ship stern flow calculations

This article presents a study on the accuracy of the numerical determination of the friction and pressure resistance coefficients of ship hulls. The investigation was carried out for the KVLCC2 tanker at model- and full-scale Reynolds numbers. Gravity waves were neglected, i.e., we adopted the so-called double-model flow. Single-block grids with H–O topology were adopted for all the calculations. Three eddy viscosity models were employed: the one-equation eddy viscosity and the two-equation models proposed by Menter and the TNT version of the two-equation k-ω model. Verification exercises were performed in sets of nearly geometrically similar grids with different densities in the streamwise, normal, and girthwise directions. The friction and pressure resistance coefficients were calculated for different levels of the iterative error and for computational domains of different size. The results show that on the level of grid refinement used, it is possible to calculate the viscous resistance coefficients in H–O grids that do not match the ship contour with a numerical uncertainty of less than 1%. The differences between the predictions of different turbulence models were larger than the numerical uncertainty; however, these differences tended to decrease with increases in the Reynolds number. The pressure resistance was remarkably sensitive to domain size and far-field boundary conditions. Either a large domain or the application of a viscous–inviscid interaction procedure is needed for reliable results. This work was presented in part at the International Conference on Computational Methods in Marine Engineering—MARINE 2007, Barcelona, June 3–4, 2007.     

Analysis of velocity fluctuations and their intermittency properties in the surf zone using empirical mode decomposition

We consider here surf zone turbulence measurements, recorded in the Eastern English Channel using a sonic anemometer. In order to characterize the intermittent properties of their fluctuations at many time scales, we analyze the experimental time series using the Empirical Mode Decomposition (EMD) method. The series is decomposed into a sum of modes, each one narrow-banded, and we show that some modes are associated with the energy containing wave breaking scales, and other modes are associated with small-scale intermittent fluctuations. We use the EMD approach in association with a newly developed method based on Hilbert spectral analysis, representing the probability density function in an amplitude–frequency space. We then characterize the fluctuations in a stochastic framework using a cumulant generating function for all scales, and compare the results obtained from direct and classical structure function analysis, to EMD–Hilbert spectral analysis results, showing that the former method saturates at large scales, whereas the latter method is more precise in its scale approach. These results show the strength of the new EMD–Hilbert spectral analysis method for data presenting a strong forcing such as found in shallow water, wave dominated situations.