1) curved steel box-girders
![点击朗读](/dictall/images/read.gif)
曲线钢箱梁
1.
In this paper we analyse the equivalent width of curved steel box-girders by finite element method,and certify the accuracy of this calculation method using an example.
采用空间薄板有限元法,分析了曲线钢箱梁桥的有效宽度规律;通过算例分析验证了计算方法的准确性,提出了供工程设计参考的实用箱梁上翼缘有效宽度比计算方法;为完善规范有关钢结构箱梁桥上翼缘有效宽度计算提供依据。
2) continuous curved steel box-girder
![点击朗读](/dictall/images/read.gif)
连续曲线钢箱梁
4) curved box girder
![点击朗读](/dictall/images/read.gif)
曲线箱梁
1.
Analysis of shear lag and effect factors in curved box girder;
![点击朗读](/dictall/images/read.gif)
曲线箱梁剪力滞效应及其影响因素
2.
Effect of spatial prestressing for curved box girder bridges;
![点击朗读](/dictall/images/read.gif)
曲线箱梁桥空间预应力效应分析
3.
A dynamic model of curved box girder beam in highway interchanges;
![点击朗读](/dictall/images/read.gif)
立交桥曲线箱梁动力分析模型
5) Curved box beam
![点击朗读](/dictall/images/read.gif)
曲线箱梁
1.
Based on the numerical results of model test, the distribution of transverse stress in flanges of curved box beam is presented in this paper.
通过对模型试验结果的分析 ,总结出了曲线箱梁横向应力的分布规律 。
2.
In the mechanical analysis of curved box beam, the shear - lag effect and the effect of curvature anus on the geometric properties of cross - section are considered.
在分析曲线箱梁力学性能时考虑了剪力滞效应,并且还考虑了曲车半径对箱梁截面特性的影响,推导了曲线箱梁在不同支承条件及载荷型式下的纵向剪切位移差公式。
6) multi-segment continuous curved steel-box girder
![点击朗读](/dictall/images/read.gif)
多段连续曲线钢箱梁
1.
In the process of long-span multi-segment continuous curved steel-box girder bridge constructed by incremental launching method,how to adjust the height of temporary piers to insure the safety of steel-box girders and temporary piers is a complex problem.
在进行大跨度多段连续曲线钢箱梁顶推施工过程中,如何通过适时调整临时墩标高来保证钢箱梁及临时墩的受力安全是一个复杂的问题。
补充资料:ANSYS壳单元分析箱梁
! Analysis a box beam section with shell elements of ANSYS
! 用ansys的壳体单元分析箱梁
! Box dimension: 10*4*4m with shell thickness of 0.04m
! By Lu Xinzheng, Depart. Civil Engineering, Tsinghua University, Beijing
! 陆新征,清华大学土木系
! Aug. 2004
! Define the Element
! 定义单元
/PREP7
!*
ET,1,SHELL93
!*
! Define the section for shells
! 定义壳单元截面
R,1,.04, , , , , ,
!*
! Define the material
! 定义材料
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,EX,1,,200e9
MPDATA,PRXY,1,,.3
! Setup the model
! 建模
! Define the keypoints
! 定义关键点
k,1,0,0,0
k,2,4,0,0
k,3,4,4,0
k,4,0,4,0
! Define the lines
! 定义线
l,1,2
l,2,3
l,3,4
l,4,1
! Define the section area
! 定义截面
a,1,2,3,4
! 用ansys的壳体单元分析箱梁
! Box dimension: 10*4*4m with shell thickness of 0.04m
! By Lu Xinzheng, Depart. Civil Engineering, Tsinghua University, Beijing
! 陆新征,清华大学土木系
! Aug. 2004
! Define the Element
! 定义单元
/PREP7
!*
ET,1,SHELL93
!*
! Define the section for shells
! 定义壳单元截面
R,1,.04, , , , , ,
!*
! Define the material
! 定义材料
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,EX,1,,200e9
MPDATA,PRXY,1,,.3
! Setup the model
! 建模
! Define the keypoints
! 定义关键点
k,1,0,0,0
k,2,4,0,0
k,3,4,4,0
k,4,0,4,0
! Define the lines
! 定义线
l,1,2
l,2,3
l,3,4
l,4,1
! Define the section area
! 定义截面
a,1,2,3,4
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条