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箍筋约束锈蚀光圆钢筋与混凝土黏结性能试验研究
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Abstract:
钢筋与混凝土的黏结性能是衡量两者协同工作的重要指标。本文以锈蚀率和混凝土强度为影响因素,制作了96个中心拉拔试件,完成了箍筋约束下锈蚀光圆钢筋与混凝土拉拔试验。研究结果表明:由于箍筋的约束作用,光圆钢筋与混凝土的黏结滑移曲线的下降段较平缓。未锈蚀光圆钢筋与混凝土的黏结强度较小,锈蚀率为1%~13%的光圆钢筋与混凝土黏结强度有明显提高,锈蚀率大于13%的光圆钢筋与混凝土黏结强度出现下降趋势。锈蚀率相同时,混凝土强度对光圆钢筋与混凝土黏结强度的影响不明显,但对钢筋锈蚀速率有一定程度的影响,随着混凝土强度的提高,混凝土保护层胀裂所需的锈蚀时间延长。
Bond performance between rebar and concrete is a very important index to evaluate their collaborative workability. Considering the influencing factors of corrosion ratio and concrete strength, this paper finished the pull-out tests of 96 specimens to investigate the bond performance between corroded plain rebar and concrete confined with stirrups. The results indicate that the descending part of bond-slip curves reduced gently due to the confinement of stirrups, bond strength was relatively lower between un-corroded plain rebar and concrete. An obvious and increased bond strength was given out when the corrosion ratio was 1%~13%, and a decreased trend was appeared on the bond strength when the corrosion ratio was over 13%. With similar corrosion ratio, concrete strength had no substantial influence on bond strength, while it had the influence on corrosion speed in certain degree. With the increase of concrete strength, the corrosion time was prolonged to lead the spalling of concrete cover.
| [1] | 史波, 赵国藩. 锈蚀钢筋混凝土构件黏结性能的研究进展[J]. 建筑材料学报, 2005, 8(6): 653-659. |
| [2] | 刘桂荣, 张华岳, 王亚宇, 薛宇峰. 高温后反复荷载下钢筋与混凝土粘结性能试验研究[J]. 华北水利水电大学学报(自然科学版), 2017, 38(4): 84-87. |
| [3] | Al-Sulaimani, G.J., Kaleemullah, M., Basunbul, A., et al. (1990) Influence of Corrosion and Cracking on Bond Behavior and Strength of Reinforced Concrete Members. ACI Structural Journal, 87, 220-231.
https://doi.org/10.14359/2732 |
| [4] | 曲福来, 于永齐, 赵顺波, 等. 不均匀锈蚀钢筋混凝土梁抗弯承载力试验研究[J]. 华北水利水电大学学报(自然科学版), 2015, 36(5): 44-47. |
| [5] | 吴庆, 袁迎曙, 蒋建华, 等. 锈蚀钢筋与混凝土黏结机理试验研究[J]. 中国矿业大学学报, 2009, 38(5): 685-691. |
| [6] | 王晨翠, 张燕燕, 曲福来. 锈蚀钢筋与混凝土黏结性能研究述评[J]. 土木工程, 2017, 6(5): 476-483. |
| [7] | 范颖芳, 黄镇国, 李健美, 等. 受腐蚀钢筋混凝土构件中钢筋与混凝土黏结性能研究[J]. 工业建筑, 1999, 29(8): 49-51. |
| [8] | Lee, H.S., Noguchi, T. and Tomosawa, F. (2002) Evaluation of the Bond Properties between Concrete and Reinforcement as a Function of the Degree of Reinforcement Corrosion. Cement and Concrete Research, 32, 1313-1318.
https://doi.org/10.1016/S0008-8846(02)00783-4 |
| [9] | 王朝阳, 杨鸥, 霍静思. 锈蚀钢筋与混凝土间粘结性能试验[J]. 哈尔滨工业大学学报, 2018, 50(8): 150-155. |
| [10] | Almusallam, A.A., Al-Gahtani, A.S., Aziz, A.R., et al. (1996) Effect of Reinforcement Corrosion on Bond Strength. Construction and Building Materials, 10, 123-129. https://doi.org/10.1016/0950-0618(95)00077-1 |
| [11] | Cabrera, J.G. (1996) Deterioration of Concrete Due to Reinforcement Steel Corrosion. Cement & Concrete Composites, 18, 47-59. https://doi.org/10.1016/0958-9465(95)00043-7 |
| [12] | 宋力, 曲福来, 赵顺波. 锈蚀钢筋与混凝土粘结性能试验研究[J]. 混凝土, 2010(4): 74-75, 78. |
| [13] | 赵羽习, 金伟良. 锈蚀钢筋与混凝土粘结性能的试验研究[J]. 浙江大学学报, 2002, 36(4): 352-356. |
| [14] | Fang, C.Q., Lundgren, K., Chen, L.G., et al. (2004) Corrosion Influence on Bond in Reinforced Concrete. Cement and Concrete Research, 32, 2159-2167. https://doi.org/10.1016/j.cemconres.2004.04.006 |
| [15] | GB50010-2010. 混凝土结构设计规范[S]. 北京: 中国建筑工业出版社, 2010. |
| [16] | 赵顺波. 混凝土结构设计原理[M]. 第2版. 上海: 同济大学出版社, 2013. |
| [17] | 潘振华, 牛荻涛, 王庆霖. 锈蚀率与极限黏结强度关系的试验研究[J]. 工业建筑, 2000, 30(5): 9-12. |
