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某高架公路桥预应力盖梁工程事故分析
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作者 李唐宁 侯朝斌 王凤明 《建筑结构》 CSCD 北大核心 1999年第4期60-61,共2页
关键词 高架公路桥 预应力盖梁 事故分析
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一座高架公路桥的维修
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作者 刘玉霞 《国外公路》 北大核心 1992年第3期40-44,共5页
桥梁混凝土的恶化将引起桥面结构的过早损伤,降低结构的耐久性。本文介绍了美国一座高架公路桥桥面的维修情况,内容包括现场调查、试验方案和试验结果、维修方法等,并指出结构设计、混凝土的组成和工艺、伸缩缝的数量、混凝土保护层厚... 桥梁混凝土的恶化将引起桥面结构的过早损伤,降低结构的耐久性。本文介绍了美国一座高架公路桥桥面的维修情况,内容包括现场调查、试验方案和试验结果、维修方法等,并指出结构设计、混凝土的组成和工艺、伸缩缝的数量、混凝土保护层厚度和质量是影响结构耐久性的重要因素。 展开更多
关键词 高架公路桥 维修 伸缩缝 碳化深度
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FLIWAY体系的高架公路桥
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作者 周民侠 皮汉萍 《国外桥梁》 1990年第4期1-3,共3页
本文介绍了英国布雷斯维特公司(Baithwaite)的Fliway体系高架公路桥的结构设计及施工情况,并附有设计技术说明,对在交通繁忙的大城市快速修建立交桥有一定参考价值。
关键词 高架公路桥 公路 FLIWAY体系
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高架公路新型构件——沪闵高架公路(二期)预制节段梁生产工艺的研究应用 被引量:6
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作者 冯为民 《建筑施工》 2002年第6期427-429,共3页
上海市沪闵高架公路(二期)弧形底钢筋混凝土预应力连续梁采用全断面预制节段梁逐跨拼装施工,国内首次应用,该节段梁的截面宽达25m、高2.1m、弧型底、多箱结构,预制难度罕见。通过比较分析,最后选用“短线法”生产工艺进行预制,并采取多... 上海市沪闵高架公路(二期)弧形底钢筋混凝土预应力连续梁采用全断面预制节段梁逐跨拼装施工,国内首次应用,该节段梁的截面宽达25m、高2.1m、弧型底、多箱结构,预制难度罕见。通过比较分析,最后选用“短线法”生产工艺进行预制,并采取多项有效措施,保证了构件的质量。 展开更多
关键词 沪闵高架公路 高架公路桥 拼装 预制构件 节段梁 生产工艺
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Effects of wind barriers on the aerodynamic characteristics of bridge-train system for a road-rail same-story truss bridge 被引量:1
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作者 LIU Lu-lu ZOU Yun-feng +2 位作者 HE Xu-hui WANG Zhen ZHOU Xu-hong 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第8期2690-2705,共16页
Wind barriers are commonly adopted to prevent the effects of wind on high-speed railway trains,but their wind-proofing effects are greatly affected by substructures.To investigate the effects of wind barriers on the a... Wind barriers are commonly adopted to prevent the effects of wind on high-speed railway trains,but their wind-proofing effects are greatly affected by substructures.To investigate the effects of wind barriers on the aerodynamic characteristic of road-rail same-story truss bridge-train systems,wind tunnel experiments were carried out using a 1:50 scale model.Taking a wind barrier with a porosity of 30%as an example,the aerodynamic characteristics of the bridge train system under different wind barrier layouts(single-sided and double-sided),positions(inside and outside)and heights(2.5 m,3.0 m,3.5 m and 4.0 m)were tested.The results indicate that the downstream inside wind barrier has almost no effect on the aerodynamic characteristics of the train-bridge system,but the downstream outside wind barrier increases the drag coefficient of the bridge and reduces both the lift coefficient and drag coefficient of the train due to its effect on the trains wind pressure distribution,especially on the trains leeward surface.When the wind barriers are arranged on the outside,their effects on the drag coefficient of the bridge and shielding effect on the train are greater than when they are arranged on the inside.As the height of the wind barrier increases,the drag coefficient of the bridge also gradually increases,and the lift coefficient and drag coefficient of the train gradually decrease,but the degree of variation of the aerodynamic coefficient with the height is slightly different due to the different wind barrier layouts.When 3.0 m high double-sided wind barriers are arranged on the outside of the truss bridge,the drag coefficient of the bridge only increases by 12%,while the drag coefficient of the train decreases by 55%. 展开更多
关键词 wind barriers road-rail same-story truss bridge high-speed railway aerodynamic coefficients train-bridge system wind tunnel test
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