白崇喜1，张博一2，侯晓萌2

（1 东北农业大学水利与建筑学院， 哈尔滨 150030； 2 哈尔滨工业大学土木工程学院， 哈尔滨 150090）

 

［摘要］利用无粘结CFRP筋部分预应力混凝土连续梁板全过程分析程序的计算结果，探讨CFRP筋弹性模量、预应力筋配筋指标、非预应力筋配筋指标、加载方式、跨高比、跨中与中支座相应控制截面配筋指标差异等参数对连续梁板中无粘结CFRP筋极限应力增量的影响规律，进而确定影响无粘结CFRP筋极限应力增量的关键参数。基于仿真分析结果，以关键参数为自变量建立了连续梁板中无粘结CFRP筋极限应力增量的计算公式，可以此为依据计算连续梁板的受弯承载力。

［关键词］预应力混凝土； 连续梁板； 无粘结CFRP筋； 极限应力

中图分类号：TU378,TU311.41      文献标识码：A      文章编号：1002-848X(2013)14-0083-04

 

Bai Chongxi1, Zhang Boyi2, Hou Xiaomeng2

（1 School of Water Conservancy and Building, Northeast Agricultural University, Harbin 150030, China; 2 School of Civil Engineering, Harbin Institute of Technology, Harbin 150090, China）

 

Abstract: Based on the results of full-range analysis programs of partially prestressed concrete continuous beams and slabs with unbonded CFRP tendons, the basic factors such as modulus of elasticity for CFRP tendon, prestressing reinforcement index, non-prestressed reinforcement index, loading type, ratio of span to height, the difference between combined reinforcement index of intermediate support section and that of mid-span section affecting the law of ultimate stress increment of unbonded CFRP tendons were presented. Key factors which have major effect on ultimate stress increment of unbonded CFRP tendons were defined. Based on the results of simulation analysis, taking key parameters as independent variable, the calculation formulas of ultimate stress increment of unbonded CFRP tendons in continuous beams and slabs were proposed, and they can provide the basis for correctly calculating flexural load bearing capacity of continuous beams and slabs.

Keywords: prestressed concrete; continuous beam and slab; unbonded CFRP tendon; ultimate stress

*黑龙江省教育厅科学技术研究项目资助（12521007），黑龙江省博士后资助经费资助（LBHZ12043）。

作者简介：白崇喜，博士，一级注册结构工程师，Email：bcxzcx@163.com。

 

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