跨大型铁路编组站钢-混组合梁斜拉桥体设计
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摘要
郑州郑北大桥为桥跨布置(221+221) m的独塔双索面结合梁斜拉桥,桥面宽度为43. 0 m。该桥上跨郑州北铁路编组站,主梁采用双箱形钢主纵梁和预制混凝土桥面板共同受力的结合梁,剪力键为圆柱头焊钉。桥塔采用H形结构,塔柱为单箱单室箱形截面。桥塔设有72根斜拉索,按双索面扇形布置,斜拉索在主梁和桥塔的锚固分别采用锚拉板式构造和钢锚箱构造。斜拉索采用平行钢丝拉索,双层共挤HDPE护套,护套表面设抗风雨振功能的双螺旋线。主梁采用多点顶推施工方案,采用钢导梁和扣索塔架辅助顶推作业。
Zhengbei Bridge in Zhengzhou is a composite girder cable-stayed bridge with the span of 221 + 221 m and the deck width is 43. 0 m. The bridge crosses Zhengzhoubei railway marshalling station. The main girder consists of double steel box section longitudinal beams and concrete deck slab. The shear key is cylinder wielding stud. The bridge has a H shaped main tower. The tower columns are single-box and single-room section. The tower has 72 stay cables,arranged as double cable plane sector. The anchors of the stay cables at the main girder are of tension plate ones. The anchors of the stay cables at the main tower are of steel anchored box. Parallel steel wires are adopted for the stay cables,double-deck shares HDPE sheath. Double helix wires with function of against wind and rain are installed on the surface of sheath. The main steel girder is constructed by the way of the incremental launching construction. Steel launching nose and cable tower are used to help incremental launching construction.
Zhengbei Bridge in Zhengzhou is a composite girder cable-stayed bridge with the span of 221 + 221 m and the deck width is 43. 0 m. The bridge crosses Zhengzhoubei railway marshalling station. The main girder consists of double steel box section longitudinal beams and concrete deck slab. The shear key is cylinder wielding stud. The bridge has a H shaped main tower. The tower columns are single-box and single-room section. The tower has 72 stay cables,arranged as double cable plane sector. The anchors of the stay cables at the main girder are of tension plate ones. The anchors of the stay cables at the main tower are of steel anchored box. Parallel steel wires are adopted for the stay cables,double-deck shares HDPE sheath. Double helix wires with function of against wind and rain are installed on the surface of sheath. The main steel girder is constructed by the way of the incremental launching construction. Steel launching nose and cable tower are used to help incremental launching construction.
引文
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[9]方继,丁仕洪,张时利,等.济南黄河公铁两用桥带加劲弦顶推施工技术[J].桥梁建设,2016,46(6):112-117.FANG Ji, DING Shihong, ZHANG Shili, et al. Construction Techniques for Incremental Launching of Jinan Huanghe River Rail-cum-Road Bridge with Stiffening Chords[J]. Bridge Construction,2016,46(6):112-117.
[2]刘宇,许艳林.海南文昌清澜大桥总体设计[J].中国市政工程,2015,37(2):30-32.LIU Yu,XU Yanlin. General Design of Qinglan Bridge in Wenchang Hainan[J]. China Municipal Engineering,2015,37(2):30-32.
[3]刘士林,王似舜.斜拉桥设计[M].北京:人民交通出版社,2006.LIU Shilin,WANG Sishun. Design of Cable-stayed Bridge[M].Beijing:China Communications Press,2006.
[4]刘明虎,孙鹏,胡广瑞,等.港珠澳大桥青州航道桥“中国结”形钢剪刀撑设计与施工[J].桥梁建设,2016,46(1):81-87.LIU Minghu, SUN Peng, HU Guangrui, et al. Design and Construction of“Chinese Knot”Style Steel Cross Bracing for Pylon of Qingzhou Ship Channel Bridge of Hong Kong-Zhuhai-Macao Bridge[J]. Bridge Construction,2016,46(1):81-87.
[5]侯文崎,叶梅新.结合梁斜拉桥锚拉板结构研究[J].钢结构,2002,17(2):23-27.HOU Wenqi,YE Meixin. Study of Tensile Anchor Plate Structure of Composite Cable-Stayed Bridge[J]. Steel Construction, 2002,17(2):23-27.
[6]苏庆田,秦飞.斜拉桥钢锚箱组合索塔水平受力性能简化分析模型[J].工程力学,2011,28(S1):172-177.SU Qingtian, QIN Fei. Simplified Analysis Model for Horizontal Mechanical Behavior of Composite Cable-pylon with Steel-anchor-box in Cable-stayed Bridges[J]. Engineering Mechanics,2011,28(S1):172-177.
[7]雍晓刚,张昕昱,史淑艳.青银高速济南黄河桥钢锚箱制作技术[J].钢结构,2009,24(5):71-73.YONG Xiaogang, ZHANG Xinyu, SHI Shuyan. Fabrication Technology of Jinan Yellow River Bridge Anchor Box in QingdaoYinchuan Expressway[J]. Steel Construction, 2009, 24(5):71-73.
[8]杨庆琪.跨越多层立交大跨径、宽截面钢箱梁整体式顶推施工技术[J].世界桥梁,2015,43(4):20-24.YANG Qingqi. Integrated Incremental Launching Construction Technique for Long-Span Broad Cross Section Steel Box Beam across Multilayered Interchange[J]. World Bridges, 2015, 43(4):20-24.
[9]方继,丁仕洪,张时利,等.济南黄河公铁两用桥带加劲弦顶推施工技术[J].桥梁建设,2016,46(6):112-117.FANG Ji, DING Shihong, ZHANG Shili, et al. Construction Techniques for Incremental Launching of Jinan Huanghe River Rail-cum-Road Bridge with Stiffening Chords[J]. Bridge Construction,2016,46(6):112-117.
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