盾构隧道预制内部结构与管片连接研究

上海诸光路隧道内部双车道结构采用全预制装配式框架结构体系,将内部结构的上、下层车道板、纵梁、立柱等主要受力构件均进行预制。对于预制装配式结构体系来说,其与管片的连接节点至关重要,节点不仅要受力可靠、便于施工,还要在地震作用下保持其完整性。针对所采用的预制内部结构与管片连接方式,通过实验研究分析了节点的受力性能,为在盾构隧道内实现全预制化双层车道结构提供技术支撑。     

Ice impact response and energy dissipation characteristics of PVC foam core sandwich plates: Experimental and numerical study

In this paper, the dynamic responses and energy dissipation characteristics of polyvinyl chloride (PVC) foam core sandwich plates under ice impact are investigated. The ice impact tests of PVC foam core sandwich plates were conducted by employing the horizontal impact experimental apparatus. The finite element simulations were conducted to analyze the dynamic response of PVC foam core sandwich plates based on soil and concrete material model for ice impactor. It was demonstrated that numerical results were in good agreement with experimental results. The deformation modes of the top facesheets were coupling of local indentation with global bending deformation, while the deformation modes of bottom facesheets were overall bending deformation. The permanent deformation of face sheets show that the impact resistance of sandwich plate is better than that of equivalent weight hull plate (EWHP). In addition, based on the actual navigation environment of ship, the effect of impact angle and ice floe shape on dynamic response and energy dissipation are analyzed.     

钢底板-波形钢腹板连续刚构桥悬臂拼装异步施工线形控制技术研究

钢底板-波形钢腹板连续刚构桥悬臂拼装异步施工过程复杂，线形控制难度较大。通过数值分析与现场监测相结合的方式，建立有限元计算模型，讨论了剪切变形、相对湿度等因素对主梁挠度的影响，进一步优化预拱度，同时结合监测数据进行分析，结果表明：剪切变形对主梁挠度的影响较大，对于波形钢腹板刚构桥，其挠度计算不能忽略该部分的影响；在进行预拱度设置时，应重视环境相对湿度的影响；通过对主梁各工况变形的监测，主梁实际变形规律与理论基本相符，主梁合龙后线形平顺。     

Load-bearing characteristics of marine complex sandwich composites considering unequal elastic modulus in tension and compression

The panel and core materials of sandwich composite usually have the characteristics of unequal elastic modulus in tension and compression. However, in the numerical calculation of sandwich composite, it is usually considered as the material with the same tensile modulus or compression modulus, which often leads to larger calculation errors. The test results show that when the elastic modulus of tension and compression is about 10 times different, the maximum calculated stress and maximum deflection will be more than twice different. In view of the complexity of sandwich composite structure, based on the bi-modulus model of laminated plates, a simplified theoretical formula and numerical calculation method are proposed for bi-modulus sandwich composite structures in this paper. Furthermore, the accuracy of the proposed numerical calculation method of bi-module is verified by the experimental study of composite single-layer plate structure and sandwich composite cabin structure. The results show that the error between the improved numerical calculation method and the experimental measurement results is basically within 6%. Meanwhile, the numerical method based on field variables has wide application range and high convergence, and can be used to calculate complex marine composite structures.     

Flexural wave bandgap and isolation characteristics of vibration and sound in periodic sandwich plates北大核心CSCD

[目的]旨在研究轻质夹芯板弹性波的传播规律与减振降噪机理。[方法]采用有限元方法结合布洛赫定理,对周期性夹芯板色散关系与弯曲波带隙特性进行研究,分析振动传输特性和声传输特性,研究轻质夹芯板减振降噪特性,并对轻质夹芯板振动传递衰减特性进行实验验证。[结果]研究结果表明,由于布拉格(Bragg)散射调制作用,轻质夹芯板在特定频段存在弯曲波带隙,弯曲振动带隙频率范围内具有良好的减振降噪效果。[结论]轻质夹芯板结构参数对弯曲波带隙具有显著的调节作用,为舰船结构振动噪声控制与声隐身设计提供了新的技术途径。     

Topology optimization of core structure of titanium alloy sandwich cylindrical shell北大核心CSCD

［Objectives］ As a new type of pressure-resistant structure, the titanium alloy sandwich cylindrical shell has not yet been studied comprehensively. The topology of the core layer needs to be confirmed using the optimization method. This paper carries out the core topology optimization of titanium alloy pressure-resistant sandwich cylindrical shells.［methods］An unreinforced cylindrical shell with high thickness is selected as the analysis object, and the axisymmetric element is used to calculate the structural stresses via ANSYS. The cylindrical shell is divided into the upper, middle and lower regions along the thickness direction. The structures of the middle region are set as the design variables, and a two-stage topology optimization mathematical model of its core structure is proposed. Based on Matlab, the main control program of the genetic algorithm is established to carry out the core layout optimization of the unreinforced cylindrical shell along the axial direction only and both the axial direction and radial direction respectively.［results］The optimal core topological form consists of equidistant ribs connecting the inner shell and outer shell vertically.［Conclusions］A sandwich cylindrical shell under hydrostatic pressure is a reasonable pressure-resistant structure. © 2023 Authors. All rights reserved.     

Fluid-structure-material coupling analysis for a floating laminated structure consisting of high-stiffness panels and a soft core

This paper presents a fluid-structure-material coupling analysis for the interaction between water waves and a very large floating laminated structure (VLFLS), which is consisted of two enhanced ultrahigh-performance concrete (UHPC) panels and a middle lightweight foamed rubber core. The representative volume element (RVE) method is used to design the mechanical properties of enhanced UHPC and foamed rubber, and the parameterized formulas are presented to reveal the dependency between macroscale mechanical properties and mesoscale hierarchical characteristics. By idealizing the rubber core as a uniformly distributed spring layer, an eighth-order differential equation of motion of the laminated structure is derived. In the context of linear potential flow theory, a hydroelastic analytical model is developed for the floating laminated structure with finite length under wave action. In the process of solving velocity potentials, a complicated dispersion equation for the wave motion below the laminated structure is derived, and this equation contains two pairs of conjugate complex roots with positive real parts. The various hydrodynamic quantities, including reflection coefficient, transmission coefficient, deflection, shear force, and bending moment, are calculated. The hydroelastic model is confirmed by considering the convergence of calculation results and the energy conservation of wave propagation. The coupled effects of wave action, material characteristics, structural parameters, and edge conditions on the hydroelastic and mechanical response of the floating laminated structure are clarified to provide important information regarding the optimal design of such structures.     

波纹钢板截面几何性质精确计算

为快捷、精确地计算波纹钢板截面几何性质，通过各截面几何性质的定义推导得出单位长度波纹钢板截面面积、惯性矩、截面模量、回转半径的精确计算公式，并将其编写为“波纹钢板截面几何性质计算器”程序。以两种波形为计算实例，将编写程序的计算结果与现有文献和CAD软件计算结果对比，结果表明：计算结果与CAD软件计算结果完全吻合，而现有文献中的计算结果均存在误差，为近似值。可见，推导的计算公式及编写的“波纹钢板截面几何性质计算器”程序可精确计算波纹钢板截面几何性质。     

压力流玻璃钢夹砂管在顶管施工中的应用与分析

该文分析了压力流玻璃钢夹砂管及其顶管工程施工工艺的优点,介绍了上海市富长路试验段以此工艺施工的过程,并对施工过程中出现的问题进行了总结和分析。