大跨度连续梁拱桥钢管拱异桥位拼装顶推施工技术研究

本文主要介绍了在郑万铁路(74+160+74)m连续梁拱施工中,由于该连续梁拱跨度较大、施工难度大、安全风险高且施工工期较长,为确保按期完工,同时降低施工作业风险,笔者公司通过采用梁拱同步拱肋异桥位拼装顶推施工工艺,大大缩短了施工工期从而按时完工,而且完工后的钢管拱质量及线性也满足相关要求,同时也降低了施工风险。该大跨度连续梁拱桥钢管拱异桥位拼装顶推施工也为后续类似施工提供了借鉴和参考。

十二相整流同步发电机系统异桥相间短路的故障分析

十二相整流同步发电机系统在移动平台已得到广泛应用。出于对系统安全运行问题的全面考虑,该文分析了该系统中一种特殊的定子内部短路故障——异桥相间短路。考虑到故障相所在的两组三相绕组之间故障附加回路的特殊拓扑结构及其对整流桥换相模式的影响,该文对原有的十二相整流发电机多回路数学模型进行了扩充,用来计算异桥相间短路的定、转子绕组及整流桥直流侧负载电压、电流等电气量,并通过样机实验,验证了计算结果的准确性。基于仿真与实验结果,分析了十二相整流发电机定子绕组异桥相间短路故障的电气特点,特别指出其短路回路电流等故障量随直流侧负载电阻增大而减小,为这种特殊故障的危害评估及保护研究提供了依据。

烯醇式异桥双铜配合物的合成及磁交换作用的研究

合成了2个异桥双铜配合物:[Cu_2(pfhmp)Br]·2H_2O(1)和[Cu_2(pfhmp)C_3H_3N_2]·2H_2O(2),经元素分析、红外及摩尔电导等手段推知两配合物均为烯醇式构型.变温磁化率测定结果表明,由于外源桥的影响,铜离子间的反铁磁相互作用有明显差别.

新型异桥烯醇式双铜配合物的合成及磁交换作用的研究

合成了2个含不同外源桥基的双铜配合物[Cu_2(pfhmp)OH]·2H_2O和[Cu_2(pfhmp)N_3]·H_2O,pfhmp^(3-)表明N,N′-二异烟酰基-2-羧基-4-甲基-1,3-苯二甲醛双腙的脱氢阴离子。经元素分析、红外光谱、摩尔电导等手段推知两配合物均为异桥结构与烯醇式构型,变温磁化率测定表明改变外源桥基会明显改变2个铜离子之间的磁交换作用。

异桥联(μ-Cl和μ-OCH_3)双核铜(II)配合物磁偶合体系中桥联原子的轨道互补效应

采用密度泛函结合对称性破损(DFT-BS)方法,研究了异桥联(μ-Cl和μ-OCH3)双核铜(II)配合物磁偶合体系中桥联原子轨道相互作用。计算结果表明,两个桥联配体原子轨道对反铁磁性偶合,表现为轨道互补效应。这种互补效应不仅表现在磁偶合作用的一致性,而且表现在对磁偶合贡献的加合性。分子轨道和自旋集居数分析都很好解释了计算的结果。

BIM技术在拱肋异桥位拼装顶拉就位施工中的应用

结合新建郑万铁路河南段站前7标段赵河镇跨南水北调干渠特大桥钢管拱施工项目,分析如何利用钢管拱肋异桥位拼装顶拉就位法进行施工,并介绍BIM技术在施工过程中的应用,为类似桥梁建设提供参考。

Analysis on cracking of deck pavement on Jiangyin Bridge

Based on four-year field inspection and investigation on deck pavement of mastic asphalt on Jiangyin Bridge, cracking causes of mastic asphalt are studied. Cracks of deck pavement are summarized on crack length and width to get a clear view of their propagations. Traffic surveys including traffic volume, axle load and vehicle speed were also conducted to assess their influences. Samples taken on-site were tested with pulling-out test and fatigue test to benchmark their properties. According to the inspection and tests results, it is concluded that the cracks are induced by rutting and fatigue. Lack of fatigue resistance, not well bonded to the steel deck and insufficient high temperature stability are supposed to be the main reasons as well as high density of low speed, excessively overloaded trucks.

Condition survey and analysis of epoxy asphalt concrete pavement on Second Nanjing Yangtze River Bridge:a ten-year review

To obtain a complete picture of the epoxy asphalt pavement condition on the Second Nanjing Yangtze River Bridge, an on-site survey is conducted to collect information regarding traffic composition and extents of pavement distresses. The survey shows that 30 m2 out of the entire 3.8 × 104 m2 pavement exhibits potholes and alligator cracks. Other surface cracks are also found, including regular longitudinal cracks, short hairline cracks, bubble cracks, and ring cracks. Rutting and shoving are not observed on the pavement. The causes of pavement distresses are discussed by analyzing the pavement mechanical response with actual traffic composition. Research results indicate that the regular longitudinal cracks occurring at ribs near wheelpaths are due to fatigue damage. Short hair cracking and bubble cracking are mainly related to construction defects. Alligator cracks are the results of the development of regular, short hair and bubble cracks lacking effective maintenance. Potholes are induced by the cracking and moisture ingression.

Finite element simulation and optimal analysis of surfacing on steel orthotropic bridge deck

To analyze the stress state of steel orthotropic deck pavement and provide reference for the design of the overlay, the inner stress state and strain distribution of surfacing under the load of the deformation of the whole bridge structure and tyre load are analyzed by the finite element method of submodeling. Influence of surfacing modulus on the strain state of the overlay is analyzed for the purpose of the optimal design of the overlay structure. Analysis results show that the deformation of the whole bridge structure has no evident influence on the stress state of the overlay. The key factor of the overlay design is the transverse tensile strain in the overlay above the upper edge of web plate of rib. The stress state of the overlay is influenced evidently by the modulus of rigidity transform overlay. And the stress state of the overlay can be optimized and lowered by increasing the modulus and thickness of rigidity transform overlay, The fatigue test has been done to evaluate the fatigue performance and modulus of different deck pavement materials such as epoxy asphalt, SBS modified asphalt, rosphalt asphalt which can provide reference for deck pavement structure design.

Effects of parameters of asphalt concrete surfacing on mechanical property of paving layer

The important parameters that influence the mechanical property of the pavinglayer on an orthotropic steel bridge deck are the paving layer thickness and modulus of the asphaltconcrete surfacing. Three important indices that control the typical failures of the paving layerare the maximum tensile stress of paving layer, the maximum shear stress between the steel deck andthe paving layer, and the maximum deflection on the paving surface. In this paper, the analyticalmodel of paving systems on orthotropic steel bridge deck is established, and the finite elementmethod is adopted to study the stress and strain of paving system. With the variation of asphaltconcrete modulus in high or low temperature season, the influences of paving layer thickness onthree control indices are researched. The results provide a theoretical basis for the determinationof thickness of the paving layer on the steel bridge deck.

Design and Implementation of a Heterogeneous Database System over the Intranet

Aim To develop a heterogeneous database united system(HDBUS)that combines the local database of Oracle, Sybase and SQL server distributed on different server into a global database,and supports the global transaction management and parallel query over the Intranet Methods In the designing and implementation of HDBUS two important concepts heterogeneous tables join. Results and Conclu- tion The first concept can be used to process the parallel query of multiple database server, the second one is the key technology of heterogeneous is the key technology of heterogeneous distribute database.

钢管拱桥顶推滑移安装施工技术

文中介绍了钢管拱桥的异桥位整体拼装施工方案,沿桥梁纵向连续顶推滑移,最后实现了整体纵移就位。

大跨度钢管拱施工变形特征研究

我国大跨度钢管拱桥建设迅速发展,面临的施工工艺的难点不断增加,其中大跨度钢管拱施工变形监测方案较为缺乏。本文以京广特大桥连续梁拱桥工程为依托,结合工程特点,提出基于施工过程中两次体系转换变形、钢管拱支架基础沉降、就位时拱肋变形、吊索系统变形、拱脚变形、钢架拱变形的一整套变形监测方案。方案实施后,通过不同位置的监测数据分析变化规律,结果表明此方案可行有效,保证了施工质量,缩短了工期,保障了施工安全。

大跨度连续梁拱桥拱肋加工制造及安装监理控制

大跨度连续梁拱桥拱部施工,拱肋在钢结构厂内分节段加工,下料和大部分焊接操作均在厂内进行,焊接质量得到有效保证,对整个拱桥拱部质量控制起到关键性作用。

Influence of local geometric parameters on fatigue performance of orthotropic steel deck

Fatigue has become critical issue for bridge with orthotropic steel deck.Number of stress cycle and equivalent stress amplitude were adopted as two investigated fatigue effects.As presented from fatigue monitoring comparison of two series-lined bridges,three local geometric parameters of steel box girder have significant influence on fatigue performance of two welded joints.They are thickness of longitudinal ribs(Tr),longitudinal spacing of transverse floor plate(Sc)and longitudinal truss(LT).Fatigue analytical models were created for parametric study of fatigue effects under wheel load.Consequently,three local parameters have exhibited insignificant influence on number of stress cycle.Compared with Tr and Sc,configuration of LT has brought about foremost effect on the equivalent stress amplitude.For equivalent stress amplitude of rib-to-deck and rib-to-rib welded joints,the influence regions of LT are respectively longitudinal strap and quadrate with the geometric length of 600 mm.Enough attention ought to be paid for local stiffen structure on fatigue performance of orthotropic steel deck in fatigue design and monitoring.

Analysis of structural hot-spot stress in orthotropic plates

On the basis of the actual steel deck structure of Taizhou Bridge, this paper carries out hot-spot stress analysis on some key spots by using the finite element model which simulates local structure of orthotropic steel bridge decks. A finite element model is established for local structure of orthotropic steel bridge decks, and in the analysis of linear elasticity of the structure, face load is employed to simulate the loads from vehicle wheels. Analysis results show that main stresses are relatively heavy at the joints between diaphragm plates, top plates and U-shaped ribs and the joints between diaphragm plates and U-shaped ribs. These joints shall be regarded as key points for hot-spot stress analysis. Different mesh densities are adopted in the finite element model and the main stresses at different hot spots are contrasted and linear extrapolation is carried out using extrapolation formulae. Results show that different mesh densities have different influences on the hot-spot stresses at the welded seams of U-shaped ribs. These influences shall be considered in calculation and analysis.

Seismic analysis of a long-span continuous steel truss-arch bridge across the Yangtze River

In this paper, an FEM （Finite Element Method） model is established for the main span of the bridge, with the main box arch and suspender members modeled by beam elements, truss members by truss elements, and the orthotropic steel deck by plate elements. The natural frequencies and mode shapes are acquired by the eigen-parameter analysis. By input of a typical earthquake excitation to the bridge system, the dynamic responses of the bridge, including the displacement and accelerations of the main joints of the structure, and the seismic forces and stresses of the key members, are calculated by the structural analysis program, based on which the main laws of the seismic responses of the bridge are summarized, and the safety of the structure is evaluated.

Penetration of the Stiffener Web to Deck Plate Weld in Orthotropic Plated Bridge Decks

This paper reports the results of experimental research the longitudinal stiffeners in an orthotropic plated bridge deck on concerning the connection between the deck plate and the web of a microscopic scale. An important number of test specimens of a weld are studied with the help of a video microscope, to detect the efficiency of the root of the weld. The second part of the paper is concerned with parametric analysis of the lack of weld penetration by using accurate finite element modelling. The results demonstrate that the weld quality often required can not always be assured, which surely has important consequence on the stresses in the weld and the fatigue resistance.

Temperature gradient and its effect on flat steel box girder of long-span suspension bridge

The temperature field variation law and distribution characteristics of an orthotropic flat steel box girder under sunny conditions were analyzed through a field temperature test on the steel box girder of the operational Runyang Yangtze River Bridge(the suspension bridge part).Function optimization fitting and error analysis of the test data were conducted.A temperature gradient distribution curve applicable to a hexagonal flat steel box girder was proposed.Based on the measurement results,the temperature effect of an orthotropic flat steel box girder was analyzed using finite element method and the effects of different temperature gradient modes on the mechanical characteristics and stress distribution of the steel box girder were compared.Under sunny conditions,heat conduction in the flat steel box girder structure shows distinct "box-room effect" characteristics,and the actual temperature gradient distribution is inconsistent with the one suggested by the existing standards.The thermal stress of a steel box girder calculated from the measured temperature gradient mode exceeds that calculated from the standard,and the intensity approximates that under the action of designed vehicle loads.The temperature-induced stress is distributed centrally near the manufacturing welds of the orthotropic steel box girder,which should be considered in design,construction and research.Results from this study could supplement the existing bridge and culvert design standards.