地铁出入口大跨度接口梁数值分析

建立空间计算模型对地铁出入口大跨度接口梁的内力等进行数值分析,提出接口梁空间计算模型及其内力计算结果,对比传统平面简化计算模型的内力结果,得知空间计算模型结果更接近接口梁的真实受力状态,接口梁的扭矩不是受力的控制性因素,而接口梁的弯矩接近弹性支座梁的弯矩。     

新九燕山隧道主洞与辅助坑道交叉口施工技术

根据包西铁路大断面红黏土隧道新九燕山隧道施工实例,就斜井和大跨度红黏土隧道交叉口施工方案进行选择,并对斜井向正洞施工方法的转化、施工技术措施等进行阐述。     

高速铁路隧道高瓦斯大断面施工关键技术

针对刘家庄隧道出口段高瓦斯大断面隧道的自身特点,采取了无轨运输方案,对隧道施工的主要机械设备进行防爆改装,通过采取合理的开挖衬砌技术,引入瓦斯、视频系统及人员实时、动态监控系统,为隧道施工安全提供了可靠的保证,并且施工速度较快。     

我国城市轨道交通车辆选配实践及建议

分析国内轨道交通车辆选配的现状,指出车辆选配主要集中在常规制式车型上,虽与城市轨道交通发展的客观条件和基本需求相适应,但也存在基于预测客流选配车辆的盲目性、相互攀比性以及忽视车辆综合拥有成本、保持适度规模与适度组合等问题。因此,提出城市轨道交通车辆按线网层级划分的选配理论及优先发展策略,为今后的城市轨道交通车辆选配提供清晰的思路及合理的工作路径。     

广交会大客流下的地铁运营组织

阐明在第108界广交会(中国进出口商品交易会)举办期间,大客流对广州地铁的运营组织造成巨大压力,在对地铁客流进行预测和分析的基础上,提出在广交会举办期间客运组织的5项对策和行车组织的4项对策.实践证明,该方案为广交会的成功举办提供了坚实的后勤保障和优质的服务.     

我国道路客运业的现状及发展对客车制造业的影响

本文对我国道路客运业的现状和特点进行了分析介绍,指出道路客运业向集约化、规模化发展,客运经营主体的资质、经营管理水平等需要进一步的提高。道路客运业的发展对客车制造企业提出了更多要求,但二者又是相互融合、共同发展的。     

用图像处理技术实现沥青混合料有限元建模

提出了一种基于图像处理技术的沥青混合料二维有限单元分析的几何建模方法.该方法将数字图像处理技术、几何形状向量化原理和有限元网格自动生成技术相结合,得到能够应用于力学计算的有限元模型.用实例验证了该方法的有效性.     

磁导航车体运动数字控制系统数学模型研究

探讨磁导航车体运动数字控制系统的数学模型。用实验方法建立磁导航车体运动数字控制系统典型环节的时间连续数学模型,结合车体运动机械操纵环节的传统数学模型建立整个控制系统的时间连续数学模型。利用Z变换方法把控制系统时间连续数学模型转换成离散数学模型,引入数字控制系统典型环节的数学模型,建立磁导航车体运动数字控制系统的离散数学模型。设计数字控制系统的二次型最优控制器并进行计算机仿真。仿真分析结果验证了数学模型的有效性。     

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.     

Hydroelastic analysis of oblique irregular waves with a pontoon-type VLFS edged with dual inclined perforated plates

The fluid-structure interaction of oblique irregular waves with a pontoon-type very large floating structure (VLFS) edged with dual horizontal/inclined perforated plates has been investigated in the context of the direct time domain modal expansion theory. For the hydroelastic analysis, the boundary element method (BEM) based on time domain Kelvin sources is implemented to establish water wave model including the viscous effect of the perforated plates through the Darcy’s law, and the finite element method (FEM) is adopted for solving the deflections of the VLFS modeled as an equivalent Mindlin thick plate. In order to enhance the computing efficiency, the interpolation-tabulation scheme is applied to assess rapidly and accurately the free-surface Green function and its partial derivatives in finite water depth, and the boundary integral equation of a half or quarter VLFS model is further established taking advantage of symmetry of flow field and structure. Also, the numerical solutions are validated against a series of experimental tests. In the comparison, the empirical relationship between the actual porosity and porous parameter is successfully applied. Numerical solutions and model tests are executed to determine the hydroelastic response characteristics of VLFS with an attached anti-motion device. This study examines the effects of porosity, submerged depth, inclined angle and gap distance of such dual perforated anti-motion plates on the hydroelastic response to provide information regarding the optimal design. The effects of oblique wave angle on the performance of anti-motion and hydroelastic behavior of VLFS are also emphatically examined.