排序方式: 共有118条查询结果,搜索用时 15 毫秒
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应用大型有限元程序ANSYS对预应力箱形索塔进行了分析。采用混凝土单元SOLID65和杆单元LINK8分别模拟塔体和预应力钢束,并按实际结构形状真实地建立了锚固区的受力模型,根据索塔受力的实际工况,给出特征点处的应力值。所得结论可供设计和施工参考。 相似文献
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Introduction Owning to the immense investment and longdesign period, the safety of bridges has great effectson the national economy. Nowadays, as the long-spanned bridges are designed to be more flexible andlighter, and their styles and functions become m… 相似文献
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甬江左线特大桥主桥为我国首座铁路混合梁斜拉桥,索塔采用钻石型,全高177.91 m。施工过程中,索塔下塔柱及中塔柱均处于长悬臂、大角度倾斜状态,若不采取适当措施,会导致索塔截面出现不良应力,并出现较大偏位,严重影响索塔后期施工及外观质量。为控制索塔在施工过程中的受力状态,建立施工阶段有限元模型,对索塔施工全过程进行模拟分析,提出一种"拉杆-撑杆"优化设计方法,对类似工程设计与施工具有一定的指导意义。 相似文献
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朝阳大桥主桥总体设计 总被引:1,自引:1,他引:0
朝阳大桥主桥总长1 208 m,对该桥设计采用的多项新材料、新工艺、新技术及其主要工程特点和关键技术进行总结。针对并利用赣江水域宽阔,需涵盖实测航迹线与规划主航道,桥垮布置为79 m+5×150 m+79 m六塔单索面斜拉桥。主梁采用波形钢腹板-PC组合梁;桥塔采用“合”造型;索距采用6.5 m,从建筑造型、材料用量和受力性能等方面最佳。为保证全桥结构性能最优,结构支承体系采用塔梁固结、梁墩分离形式,边跨与中跨跨径比值为0.53。 相似文献
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斜塔斜拉桥是一种新型桥梁结构形式,该桥型结构特殊且受力复杂,主要是通过塔的倾斜来平衡桥面恒载和活载。通过一般斜拉桥的分析理论来分析斜塔斜拉桥,其关键是考虑主塔的倾斜,进一步通过对斜塔的受力分析,得出斜塔斜拉桥的力学分析方法。 相似文献
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Three methods for calculating cable force (analytic method, fitting method and finite element method) are analyzed and compared. The effects of boundary condition, spectrum resolution, sampling time, and number of sampling points on the precision of cable force identification are discussed, and error analysis is conducted. The results of three methods applied to a practical project are significantly less than the design value. Comparatively, the result of finite element method is the closest to the design value. Moreover, their computational precision and error are compared and analyzed. The precision of frequency identification of cables, long cables in particular, is strongly affected by frequency resolution. If the frequency resolution is included in calculating the cable force, the identification error can be reduced greatly. 相似文献
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