期刊文献+

可控制精度的预应力混凝土杆系结构时变效应通用分析法

THE PRECISION-CONTROLLABLE GENERAL APPROACH TO ANALYZE TIME-DEPENDENT EFFECT IN PRESTRESSED CONCRETE STRUCTURES
下载PDF
导出
摘要 基于杆系有限单元法和时变效应分析的全量形式自动递进法,提出了可控制精度的预应力混凝土杆系结构时变效应通用分析法。有限元法仅用来计算结构的弹性响应,列式中不考虑与时间有关的影响因素;自动递进法仅完成结构不考虑约束情形下的收缩、徐变效应;通过控制有限元法和自动递进法各自计算精度来方便地控制通用分析法的计算精度。建立了考虑混凝土、普通钢筋和预应力钢筋影响的组合单元,单元刚度随混凝土弹性模量时变和预应力钢筋的不断张拉而调整;结合计算锚固瞬间考虑反摩阻影响的预应力钢筋中应力分布的统一算法,建立了可方便计算每束力筋对结构弹性响应贡献的有限元列式,为较准确分析结构时变效应提供了基础。讨论并比较了通用分析法和目前常用分析法的理论计算值及试验结果,表明通用分析法计算精度可控,直到获得满意的精度。 A precision-controllable general approach (PCGA) to analyze time-dependent effect in prestressed concrete structures is presented by using finite element method (FEM) and automatically step-up method (ASUM). In this approach the FEM is only used to calculate elastic responses in which the time-related influences are not considered, while the ASUM is only used to calculate time-dependent effect due to creep and shrinkage for structures under free-constraint, thus the control of computation precision for general approach is fulfilled through precision control of FEM and ASUM, respectively. In this paper a novel built-up beam element including the effect of concrete, prestressed steels and non-prestressed steels is established, and its stiffness is adjusted by the time-dependent modulus of concrete and incessantly tensioned steels. By adopting the unified method to calculate stress distribution along prestressed steels just after anchorage is set up, the general approach can easily calculate the structural elastic response caused by each tendon, which is the base to analyze precisely the time-dependent effects in prestressed concrete structures. The discussion on theoretical values given by PCGA and current frequently used methods and tested data shows that PCGA can achieve agreeable precision
作者 胡狄
出处 《工程力学》 EI CSCD 北大核心 2006年第12期117-122,共6页 Engineering Mechanics
关键词 预应力混凝土 时变效应 可控制精度的通用分析法 徐变 收缩 有限元法 全量形式自动递进法 prestressed concrete time-dependent effect precision-controllable general approach creep shrinkage finite element method automatically step-up method
  • 相关文献

参考文献13

  • 1Bazant Z P.Prediction of concrete creep effects using age-adjusted effective modulus method[J].ACI,Proceedings,1972,69(4):212~217.
  • 2Bazant Z P.Mathematical modeling of creep and shrinkage of concrete[M].John Wiley & Sons Ltd,1988.275~308.
  • 3朱伯芳.有限单元法原理与应用[M].北京:中国电力出版社,1999.353~357.
  • 4Jendele L,Phillips D V.Finite element software for creep and shrinkage in concrete[J].Computers and Structures,1992,45(1):113~126.
  • 5Cruz P J S,Maii A R,Roca P.Nonlinear time-dependent analysis of segmentally constructed structures[J].Journal of Structural Engineering,ASCE,1998,124(3):278~ 287.
  • 6卓卫东.基于初应变思路的结构徐变分析的位移法[J].力学与实践,1998,20(4):63-64. 被引量:2
  • 7Bazant Z P,Baweja S.Justification and refinements of concrete creep and shrinkage prediction model.Part 1.Statistics and sensitivity.Part 2.Updating and theoretical basis[J].Materials and Structures,1995,28:488~495.
  • 8Gilbert R I.Deflection calculation for reinforced concrete structures-why we sometimes get wrong[J].ACIStructural Journal,1999,96(6):1027~1032.
  • 9胡狄,陈政清.预应力混凝土桥梁徐变分析的全量形式自动递进法[J].工程力学,2004,21(5):41-45. 被引量:15
  • 10Ghali A,Trevino J.Relaxation of steel in prestressed concrete[J].PCI,1985,30(5):82~94.

二级参考文献30

  • 1刘永颐 关建光.空间曲线预应力束摩擦应力损失计算方法的探讨[J].土木工程学报,1981,14(3).
  • 2谢友军 等.预应力混凝土简支箱梁徐变变形试验研究[R].长沙:中南大学土木建筑学院,2001..
  • 3.JTJ023—85.公路钢筋混凝土及预应力混凝土桥涵设计规范[S].,..
  • 4.TB10002.3—99.铁路桥涵钢筋混凝土及预应力混凝土结构设计规范[S].,..
  • 5.JTJ 023—85.公路钢筋混凝土及预应力混凝土桥涵设计规范[S].,..
  • 6.TB 10002.3-99.铁路桥涵钢筋混凝土及预应力混凝土结构设计规范[S].,..
  • 7.GB 50010—2002.混凝土结构设计规范[S].,..
  • 8[1]A R Kawano, F Warer. Model formulations for numerical creep calculations for concrete [J]. Journal of Structural Eengineeging, 1996, 122(3): 255-261.
  • 9[2]O C Zienkiewicz, M Waston. Some creep effects in stress analysis with particular reference to concrete at pressure vessels [J]. Nuclear Engineering and Design, 1966, (4): 38-47.
  • 10[3]R L Taylor, K S Pister, G L Goudreau. Thermomechanical Analysis of viscoelastic solids [J]. Methods in International Journal for Numerical Engineering, 1970, (2): 45-60.

共引文献55

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部