温度升高对碳纤维薄板增强RC梁疲劳性能的影响(英文)

Carbon Fiber Laminate Strengthened RC Beams Subjected to Fatigue Loading at Elevated Temperature

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摘要为了研究碳纤维薄板增强钢筋混凝土梁在不同温度下的疲劳性能,分别在20℃和80℃的温度条件下对26根增强梁进行了三点弯曲静载和疲劳试验.结果表明:当疲劳载荷水平为25.0kN,27.5kN和30.0kN时,试件的S-N曲线、疲劳极限、破坏模式、挠度曲线和应变反映受环境温度的影响较小. The static and fatigue tests under cyclic bending loads at different ambient temperatures of 20 ℃ and 80 ℃ are carried out to investigate the fatigue behavior of the reinforced concrete（RC） beams strengthened with carbon fiber laminates（CFLs）. The failure modes of the strengthened beams include CFLs debonded near the mid-span and steel rebar yielded or broken. S-N curves of strengthened beams are developed according to the test results. The fatigue limit, load versus deflection curves and strain response of strengthened beams are obtained as well. The results show that the fatigue behaviors of the strengthened beams are not significantly influenced by the ambient temperatures （lower than 80 ℃） when the fatigue load levels equal 25.0 kN, 27.5 kN and 30.0 kN.

作者周芝林黄培彦郭馨艳

机构地区华南理工大学交通学院

出处《郑州大学学报（理学版）》 CAS 2008年第2期114-119,共6页 Journal of Zhengzhou University:Natural Science Edition

基金国家自然科学基金资助项目,编号10672060

关键词碳纤维薄板钢筋混凝土梁 S-N曲线疲劳寿命 carbon fiber laminate reinforced concrete beam S-N curve fatigue life

分类号 O346.2 [理学—固体力学]

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1Neale K W. FRPs for structural rehabilitation: a survey of recent progress[J]. Struct Eng Mater, 2000, 2 (2) : 133-138.
2Labossiere P, Neale K W, Rochette P, et al. Fiber reinforced polymer strengthening of the Sainte-Emelie-de-1Energie bridge: design, instrumentation, and field testing [J]. Civil Eng, 2000, 27 (5): 916-927.
3Barnes R A, Mays G C. Fatigue performance of concrete beams strengthened with CFRP plates [J]. Compos Constr, 1999, 3(2): 63-72.
4Brena S F, Benouaich M A, Kreger M E. Fatigue tests of reinforced concrete beams strengthened using carbon fiber rein forced polymer composites [J]. ACI Structural Journal, 2005,102(2) : 305-313.
5Czaderski C, Motavalli M. Fatigue behavior of CFRP L-shaped plates for shear strengthening of RC T-beams[J]. Composites B, 2004, 35(4): 279-290.
6Beaudoin Y, Labossiere P, Neale K W. Wet-dry action on the bond between composite materials and reinforced concrete beams [C]//Benmokrane B, Rahman H. First International Conference on Durability of Fiber Reinforced Polymer (FRP) Composites for Construction. Canada: Sherbrooke, 1998: 537-546.
7Raiche A, Beaudoin Y, Labossiere P. Durability of composite materials used as external reinforcement for RC beams [C] //Harries K. Proceedings of the Annual Conference of the Canadian Society for Civil Engineering. Regina, Canada: CSCE, 1999: 155-164.
8Green M F, Bisby L A, Beaudoin Y, et al. Effect of freeze thaw cycles on the bond durability between fiber reinforced polymer plate reinforcement and concrete [J]. Civil Eng, 2000, 27(5): 949-959.
9Shahawy M, Beitelman T E. Static and fatigue performance of RC beams strengthened with CFRP laminates [J]. J Struct Eng, 1999, 125(6) : 613-621.
10Papakonstantinou C G, Petrou M F, Harries K A. Fatigue behavior of RC beams strengthened with GFRP sheets [J]. Compos Constr, 2001, 5(4): 246-253.

1孙宗池.用矩阵计算简支梁挠度曲线的数学模型[J].大学数学,1990,11(Z1):9-12.
2陈翠峰,黄培彦.碳纤维薄板增强钢筋混凝土梁的抗弯刚度分析[J].华南理工大学学报（自然科学版）,2003,31(z1):10-13. 被引量：13
3马妍,李惟,刘陶唐.杠杆挠度曲线的Fredholm积分方程解法[J].牡丹江师范学院学报（自然科学版）,2016,42(3):4-6.
4于永平,王中强,孙维鹏.无限长预应力弹性地基梁后屈曲问题的数值解[J].吉林大学学报（理学版）,2011,49(1):37-40. 被引量：2
5韩广才,李政达.自由梁结构动力学分析[J].佳木斯大学学报（自然科学版）,2016,34(4):509-511.
6姚国文,黄培彦,郑小红,赵琛,陈翠峰.纤维薄板厚度对增强RC梁承载能力的影响[J].暨南大学学报（自然科学与医学版）,2005,26(1):120-122. 被引量：3
7曹天捷,杜蓬娟.一次超静定理想弹塑性梁的全过程分析[J].工程力学,1999,16(3):105-112. 被引量：14
8朱金文,杨德庆.三种典型边界条件下受集中载荷梁大挠度弯曲精确解[J].力学季刊,2013,34(3):403-408. 被引量：3
9肖锡武,杨军,Jacques Druez,徐嫣.悬垂缆线的非线性振动[J].振动．测试与诊断,2003,23(2):110-113. 被引量：12
10老大中,赵宝廷.基于简支梁挠度方程展开的傅里叶级数[J].北京理工大学学报,2010,30(1):1-4. 被引量：6

郑州大学学报（理学版）

2008年第2期

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温度升高对碳纤维薄板增强RC梁疲劳性能的影响(英文)

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