F型与直壁型护栏在客车撞击下的仿真研究

为了对比研究A类防撞等级中F型混凝土护栏和直壁型混凝土护栏的防护性能,建立两种护栏与客车的有限元模型,运用ANSYS Workbench软件中显式动力学模块,控制仿真碰撞的试验参数,将大客车模型以规定的初速度和碰撞角度进行计算机仿真碰撞试验,从车辆的加速度、车辆运行轨迹、护栏的最大动态变形量等方面综合对比两种护栏的防护性能。结果表明:相比直壁式护栏,F型混凝土护栏防撞性能、安全性能、导向性能较好。     

基于基准有限元模型的箱梁TMD振动控制研究

针对高架桥梁结构引起的振动噪声问题,研究TMD控制箱梁结构振动的特性。为了获得精准的箱梁有限元模型,首先以铁路32 m简支箱梁桥为原型,按10:1的几何相似比设计制作简支箱梁缩尺试验模型,应用ANSYS软件建立初始动力有限元模型;对有限元模型模态分析与试验模型模态测试得到的自由模态信息进行误差分析,并采用基于灵敏度分析的模型修正技术对初始动力有限元模型弹性模量和密度进行修正,得到基准有限元模型,误差确认结果显示修正后的有限元模型更精准地反应箱梁的振动特性;进一步利用基准有限元模型,开展TMD控制简支箱梁桥振动的研究,研究结果表明TMD对于抑制桥梁竖向共振有很好的效果。     

倒运海水道整治工程斗朗—川槎大桥段实船适航试验

为验证倒运海水道整治工程是否达到整治标准的通航要求,选取斗朗—川槎大桥段作为实船试验河段,采用该航段设计船型500吨级满载船作为试航船,进行实船适航试验。测量试验河段的水深地形、表面流速流向、航标配布和水位,试验船舶沿设计航线进行上下水航行,实时测量试航船舶航行轨迹、对岸航速、舵角、漂角、船舶与河岸之间的安全距离等航行指标及航行状态,并结合通航规范及标准,对整治后航道技术参数的合理性、航标配布的合理性等进行分析评价。结果表明,本试验航段的整治效果达到了整治标准的通航要求。研究成果可为类似工程提供参考。     

超深振捣条件下混凝土墙体模板侧压力的简化计算方法

超深振捣对混凝土成品质量有害无益,研究超深振捣引起模板侧压力增大的规律,可为规避其害提供依据。为此设计4个混凝土墙体试件,实测在浇筑过程中模板侧压力的变化情况。基于振捣液化和液体压力平衡理论,建立了超深振捣情况下混凝土模板侧压力计算模型,推导了计算公式,并与实验数据进行对比验证。研究结果表明,振捣深度是影响混凝土墙体模板侧压力的重要因素,本文提出的计算模型能很好地预测墙体结构超深振捣位置的模板侧压力。     

双层开孔斜挡板透空式防波堤消浪性能研究

针对一种新型双层开孔斜挡板透空式防波堤消浪性能问题,研究挡板开孔率和挡板倾斜角度对防波堤消浪性能的影响。采用物理模型试验方法,得出其反射和透射系数、波能分布和堤后波幅频谱特征结果。结果表明,斜挡板开孔率越大,防波堤透射系数也越大,但在试验范围内,透射系数均小于0. 5;该类型防波堤对波浪有较好的消能性,对较长周期波以反射为主,较短周期波以消浪室消能为主,整体透射系数较短周期波略大;防波堤设计斜挡板比平挡板透射系数小,具有更好的消浪性能,最小透浪仅为后者的39%。     

岩溶区地铁隧道下穿跨河桥梁施工技术研究

以贵阳轨道交通2号线下穿南明河及团坡桥为工程依托,针对岩溶发育区不均匀浅覆土条件下地铁隧道穿越跨河桥梁施工中遇到的抗渗防沉等难题,在遵循浅埋暗挖法十八字方针的基础上进行方案优化。下穿施工前对河床低洼处进行回填,同时增设水平隔水层,初步解决了河水下渗难题。隧道开挖过程中在掌子面进行全断面帷幕注浆及超前管棚支护确保了拱顶的稳定性,采用悬臂掘进机掘进使地层沉降得到控制,二衬混凝土浇筑时采用缺陷预控技术避免了二衬背后出现空洞,同时采用动态监控量测,有效解决了围岩稳定及团坡桥沉降的难题。     

Buckle propagation of damaged SHCC sandwich pipes: Experimental tests and numerical simulation

Sandwich pipe (SP) combining high-strength performance and thermal insulation has been considered an effective solution for oil and gas transportation in ultra-deepwater. Strain hardening cementitious composite (SHCC) is well known for its capacity to withstand both tensile load and external hydrostatic pressure. The sandwich pipe considered in the research is constituted of concentric steel pipes with SHCC annular layer. In the present research work, the SHCC was manufactured, and full scale sandwich pipes were assembled. Intact and damaged specimens were submitted to controlled external pressure in a hyperbaric chamber to obtain the collapse and propagation pressures, respectively. Modeling and simulation of the buckle propagation of the SPs were correlated with the experimental results. The results show that sandwich pipe with SHCC core has an excellent structural strength under high external pressure in both intact and damaged conditions. Moreover, the results also show that the interaction between the annular and the inner/outer pipes provides a significant contribution to the buckling resistance under propagation pressure.     

Experimental study on seismic vibration control of an offshore wind turbine with TMD considering soil liquefaction effect

Wind energy is clean and sustainable. Taiwan is establishing offshore wind farms using wind turbines in the Taiwan Strait. However, these are located in an earthquake-prone area with sandy seabed conditions. To ensure their safety and reliability, the turbines’ support structure must be protected against wind, waves, and seismic loads. Tuned mass dampers (TMDs) are commonly employed to reduce structural vibrations. A TMD is more simply incorporated into turbine structures than are other energy dissipation devices. In this study, a 1:25-scale test model with a TMD was constructed and subjected to shaking table tests to experimentally simulate the dynamic behavior of a typical 5-MW wind turbine with a jacket-type support structure and pile foundation. The scaled-down wind turbine model has a nacelle without rotating blades; therefore, the aerodynamic and rotational effects due to the rotating blades were ignored in this study. A large laminar shear box filled with saturated sandy ground was used to simulate the typical seabed conditions of Taiwanese offshore wind farms. The TMD system was designed to be tuned the first-mode frequency of the test model. Two ground accelerations, selected by considering wind farm site condition and near-fault characteristics, were used for excitation in the test. The responses of the test model with and without the TMD system were compared, and the influence of soil liquefaction on the effectiveness of TMD vibration control was addressed.     

智能船舶航行功能测试验证的方法体系

智能船舶航行技术发展的核心在于构建从辅助决策到自主驾控的完整软硬件系统,实现人工驾驶到智能驾驶的演化,而核心技术的突破与软硬件系统的研发离不开完善的测试验证体系和健全的规范标准。对目前国内外智能船舶测试场现状进行综述,对以性能、能效、信息、智能为对象的智能船舶航行功能测试构想进行解析,最终提出以虚拟仿真为初试、模型测试为中试和实船验证为终试的智能船舶航行功能测试验证方法体系。     

天津滨海新区土层邓肯-张模型参数研究

为深入研究邓肯-张模型参数的计算方法以及参数的规律,以天津滨海新区主要土层土样的室内三轴固结排水(CD)试验结果为例,通过理论计算得出相应地层的邓肯-张模型参数,分析各地层邓肯-张模型参数。文中所运用的邓肯-张模型参数计算方法真实可靠,其结果可以为今后的工程建设涉及地层变形特性研究提供借鉴。