钢丝绳-聚合物砂浆面层交叉条带加固砌体墙拟静力试验研究
引用文献:
蒋济同 王家存 周献祥 隋正昂. 钢丝绳-聚合物砂浆面层交叉条带加固砌体墙拟静力试验研究[J]. 建筑结构,2022,48(04):136-141,92.
JIANG Jitong WANG Jiacun ZHOU Xianxiang SUI Zheng'ang. Experimental study on static behavior of masonry wall reinforced by wire rope-polymer mortar surface layer cross strip[J]. Building Structure,2022,48(04):136-141,92.
摘要:对9片砌体墙进行拟静力试验,建立钢丝绳-聚合物砂浆面层交叉条带加固砌体墙的抗剪承载力公式并研究组合墙体受力机理。试验表明:在砌体墙单侧或者双侧增设25mm厚、250mm宽的钢丝绳-聚合物砂浆面层可以提高砌体墙抗剪承载力,组合墙体承载力较未加固墙体提高约70%,由于交叉条带对墙体的约束作用使得墙体的延性也有所提高。利用试验数据拟合出加固后墙体的抗剪承载力参考计算公式,为了保证安全,对钢丝绳和聚合物砂浆所承担的抗剪承载力乘以0.9的安全系数,最终数据表明墙体调整后的公式计算值对实际承载力的包络性较好,可在相关的研究分析中作为参考计算公式使用。
关键词:交叉条带,砌体加固,抗剪承载力
基金:
尊敬的用户,本篇文章需要2元,点击支付交费后阅读
限时优惠福利:领取VIP会员
全年期刊、会议视频
全部免费!培训视频打折!
全年期刊、会议视频
全部免费!培训视频打折!
参考文献[1] 苑振芳.对汶川地震灾后重建的思考及对砌体结构的建议[J].建筑结构,2008,38(7):28-29,24.
[2] 张敏政.汶川地震中都江堰市的房屋震害[J].地震工程与工程振动,2008(3):1-6.
[3] 孙爱伏,侯爽,林迟.汶川地震中都江堰市房屋建筑失效模式分析[J].大连理工大学学报,2009,49(5):731-738.
[4] 周献祥,谢伟,蒋济同,等.钢筋-砂浆面层交叉条带法在砌体结构抗震加固中的应用研究[J].建筑结构,2019,49(5):1-8.
[5] 砌体结构加固设计规范:GB 50702—2011[S].北京:中国计划出版社,2012.
[6] 砌体结构工程施工质量验收规范:GB 50203—2011[S].北京:中国建筑工业出版社,2011.
[7] 建筑抗震试验方法规程:JGJ/T 101—2015[S].北京:中国建筑工业出版社,2015.
[8] 蒋济同,饶高栋,周献祥,等.钢筋-砂浆面层交叉条带法加固砌体结构单片墙拟静力试验研究[J].建筑结构,2019,49 (5):17-22.
[9] 朱宇峰.蒸压粉煤灰实心砖墙片抗震性能试验研究[D].重庆:重庆大学,2007.
[10] 蒋济同,何生魁.剪-压复合受力状态下砌体墙抗剪强度研究成果的评述[J].建筑结构,2016,46 (S2):476-480.
[2] 张敏政.汶川地震中都江堰市的房屋震害[J].地震工程与工程振动,2008(3):1-6.
[3] 孙爱伏,侯爽,林迟.汶川地震中都江堰市房屋建筑失效模式分析[J].大连理工大学学报,2009,49(5):731-738.
[4] 周献祥,谢伟,蒋济同,等.钢筋-砂浆面层交叉条带法在砌体结构抗震加固中的应用研究[J].建筑结构,2019,49(5):1-8.
[5] 砌体结构加固设计规范:GB 50702—2011[S].北京:中国计划出版社,2012.
[6] 砌体结构工程施工质量验收规范:GB 50203—2011[S].北京:中国建筑工业出版社,2011.
[7] 建筑抗震试验方法规程:JGJ/T 101—2015[S].北京:中国建筑工业出版社,2015.
[8] 蒋济同,饶高栋,周献祥,等.钢筋-砂浆面层交叉条带法加固砌体结构单片墙拟静力试验研究[J].建筑结构,2019,49 (5):17-22.
[9] 朱宇峰.蒸压粉煤灰实心砖墙片抗震性能试验研究[D].重庆:重庆大学,2007.
[10] 蒋济同,何生魁.剪-压复合受力状态下砌体墙抗剪强度研究成果的评述[J].建筑结构,2016,46 (S2):476-480.
Experimental study on static behavior of masonry wall reinforced by wire rope-polymer mortar surface layer cross strip
Abstract: A pseudo-static test was carried out on 9 masonry walls, the formula for the shear capacity of the masonry wall reinforced by wire rope-polymer mortar surface layer cross strip was established and the force mechanism of the composite wall was studied. The test results show that adding 25 mm thick and 250 mm wide wire rope-polymer mortar surface layer on both sides of the masonry wall can improve the shear capacity of the masonry wall, and the bearing capacity of the composite wall is about 70% higher than that of the unreinforced wall, and the ductility of the wall s is also improved due to the restrictive effect of the cross strip on the wall. The test data was used to fit a reference calculation formula for the shear capacity of the reinforced wall. In order to ensure safety, multiply the shear capacity of the wire rope and polymer mortar by a safety factor of 0.9. The final data show that the adjusted formula calculation value of the wall has a better envelope for the actual bearing capacity, and can be used as a reference calculation formula in related research and analysis.
Keywords: cross strip; reinforcement of masonry walls; shear capacity
609
0
0