张弦梁结构振动方法索力识别(Ⅰ): 振动特性的参数分析

张宇鑫;李国强;赵世峰

振动与冲击 ›› 2009, Vol. 28 ›› Issue (3) : 152-157.

振动与冲击 ›› 2009, Vol. 28 ›› Issue (3) : 152-157.
论文

张弦梁结构振动方法索力识别(Ⅰ): 振动特性的参数分析

  • 张宇鑫1, 李国强2, 赵世峰1
作者信息 +

Vibration-based cable tension identification of a beam string structure (Ⅰ) :parameter analysis of dynam ic behavior

  • ZHANG Yu-xin1, LI Guo-qiang2, ZHAO Shi-feng1
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文章历史 +

摘要

以构造形式简单且应用广泛的张弦梁结构为研究对象, 对大跨度索屋盖结构中索的索力识别方法进行了初步研究。首先通过分析张弦梁结构的受力特点, 提出了张弦梁结构下弦边索段的振动分析模型, 分析此模型得到边索段的自由振动方程隐式解答, 该解答反映了索力与频率、抗弯刚度及边界条件等之间的相关关系。然后通过引入一组能够反映抗弯刚度及支承条件对结构振动特性影响的无量纲参数, 并利用非线性数值计算, 分析了抗弯刚度及支承条件对拉索结构自振特性的影响规律, 得出若干有益结论。在以上工作基础上, 提出了索力识别的初步模型, 可为该种结构仅利用频率测试索力提供参考。

Abstract

Based on mechanical properties of a beam string structures ( BSS), the vibration model of the side cable
at lower chord of the BSS was proposed first.The implicit free vibration solution of the cable was obtained by analyzing the
vibration model here in. The solution reflected the recurrent relationship among cable tension, natural frequencies, flexural
rigidity and boundary conditions. Based on the solution, nonlinear numerical computation was conducted to study how
flexural rigidity and boundary conditions influenced the free vibration properties of the cable by introducing a set of dimensionless
parameters, which represented flexural rigidity and boundary conditions, respectively. Some instructive conclusions
were obtained here in. Furthermore, the preliminary identification model was proposed according to the above analysis.

关键词

张弦梁结构 / 振动 / 索力 / 识别 / 频率

Key words

beam string structure(BSS) / vibration / cable tension / identification / frequency

引用本文

导出引用
张宇鑫;李国强;赵世峰. 张弦梁结构振动方法索力识别(Ⅰ): 振动特性的参数分析[J]. 振动与冲击, 2009, 28(3): 152-157
ZHANG Yu-xin;LI Guo-qiang;ZHAO Shi-feng. Vibration-based cable tension identification of a beam string structure (Ⅰ) :parameter analysis of dynam ic behavior[J]. Journal of Vibration and Shock, 2009, 28(3): 152-157

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