|本期目录/Table of Contents|

[1]刘其舟,李金洲,吴博诚,等.反复荷载作用下含缺陷灌浆套筒约束应力及钢筋黏结强度的预测模型[J].建筑科学与工程学报,2024,41(04):51-62.[doi:10.19815/j.jace.2022.08019]
 LIU Qizhou,LI Jinzhou,WU Bocheng,et al.Prediction model for restraint stress and reinforcement bond strength of grouted sleeves with defects under cycling loading[J].Journal of Architecture and Civil Engineering,2024,41(04):51-62.[doi:10.19815/j.jace.2022.08019]
点击复制

反复荷载作用下含缺陷灌浆套筒约束应力及钢筋黏结强度的预测模型(PDF)
分享到:

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

卷:
41卷
期数:
2024年04期
页码:
51-62
栏目:
建筑结构
出版日期:
2024-07-19

文章信息/Info

Title:
Prediction model for restraint stress and reinforcement bond strength of grouted sleeves with defects under cycling loading
文章编号:
1673-2049(2024)04-0051-12
作者:
刘其舟1,李金洲1,吴博诚1,杨承建1,杨作东2,熊 煜3,张 璐1
(1. 桂林理工大学 土木工程学院,广西 桂林 541004; 2. 河池市城乡建设投资集团有限公司,广西 河池 547000; 3. 河池学院 基建处,广西 河池 546399)
Author(s):
LIU Qizhou1, LI Jinzhou1, WU Bocheng1, YANG Chengjian1, YANG Zuodong2, XIONG Yu3, ZHANG Lu1
(1. School of Civil Engineering, Guilin University of Technology, Guilin 541004, Guangxi, China; 2. Hechi Urban and Rural Construction Investment Group Co., Ltd, Hechi 547000, Guangxi, China; 3. Infrastructure Office, Hechi University, Hechi 546399, Guangxi, China)
关键词:
灌浆套筒 灌浆缺陷 循环加载 约束应力 预测模型
Keywords:
grouted sleeve grouting defect cycling loading restraint stress prediction model
分类号:
TU375
DOI:
10.19815/j.jace.2022.08019
文献标志码:
A
摘要:
为建立地震反复荷载作用下含缺陷灌浆套筒内部灌浆料与钢筋之间黏结强度的预测模型,对套筒的约束体系进行了分析,并根据缺陷的影响机理对缺陷进行了分类; 设计了含缺陷的灌浆套筒试件并对其进行了低周反复加载试验研究,得到了含缺陷灌浆套筒约束应力的数学表达式,结合数学表达式建立了含缺陷灌浆料极限黏结强度的预测模型,通过与试验结果对比验证了预测模型的正确性。结果表明:缺陷导致的套筒约束体系失衡是造成套筒黏结性能劣化的重要原因,集中于一侧的缺陷会诱发套筒约束体系的失衡,因此对黏结性能的劣化影响相较于均匀分散的缺陷而言更为显著; 随着缺陷率的增大,试件的失效模式从钢筋拉断向钢筋拔出转变; 当含缺陷套筒的约束体系基本平衡时,出现钢筋拔出破坏的界限缺陷率约为30%; 当缺陷导致套筒约束体系严重失衡时,出现钢筋拔出破坏的界限缺陷率仅为20%; 灌浆端是套筒约束作用率先失效的薄弱部位,因此相较机械端出现的缺陷而言,在灌浆端出现的缺陷更容易诱发连接失效; 该预测模型可为含缺陷灌浆套筒在地震区的性能评估提供理论参考依据。
Abstract:
In order to establish a prediction model for the bond strength between grout and rebar in grouted sleeves with defects under cycling seismic loading, the restraint system of the sleeve was analyzed, and the defects were classified according to the influence mechanism on the restraint system. The grouted sleeve specimens with defects were designed and investigated under cycling loading tests. The mathematical expression of the restraint stress of the grouted sleeve with defects was obtained. The prediction model of the ultimate bond strength of grout with defects was established by combining the mathematical expressions, and the correctness of the prediction model was verified by comparing with the test results. The results show that the imbalance of the sleeve restraint system caused by defects is an important cause of the deterioration of the sleeve bond performance. The defects concentrated on one side induce an imbalance of the sleeve restraint system, and therefore have a more significant effect on the deterioration of the bond performance than uniformly dispersed defects. As the defect rate increases, the failure mode of the specimen changes from reinforcement fracture failure to reinforcement pullout failure. When the restraint system of the defective sleeve is in equilibrium, the threshold defect rate for rebar pullout failure is approximately 30%. When the defect causes a severe imbalance in the sleeve restraint system, the threshold defect rate for rebar pullout failure is only 20%. The grouted end is the weak point where the sleeve restraint is the first to fail, so defects at the grouted end are more likely to induce connection failure than defects at the mechanical end. The prediction model can provide a theoretical reference for the performance evaluation of grout sleeve with defects in seismic zone.

参考文献/References:

[1] YEE A A.Splice sleeve for reinforcing bars with cylindrical shell:US4627212[P].1986-12-09.
[2]EINEA A,YAMANE T,TADROS M K.Grout-filled pipe splices for precast concrete construction[J].PCI Journal,1995,40(1):82-93.
[3]LING J H,ABD RAHMAN A B,IBRAHIM I S,et al.Behaviour of grouted pipe splice under incremental tensile load[J].Construction and Building Materials,2012,33:90-98.
[4]KIM H K.Structural performance of steel pipe splice for SD500 high-strength reinforcing bar under cyclic loading[J].Architectural Research,2008,10:13-23.
[5]郑永峰,郭正兴,曹 江.新型灌浆套筒的约束机理及约束应力分布[J].哈尔滨工业大学学报,2015,47(12):106-111.
ZHENG Yongfeng,GUO Zhengxing,CAO Jiang.Confinement mechanism and confining stress distribution of new grouting coupler for rebars splicing[J].Journal of Harbin Institute of Technology,2015,47(12):106-111.
[6]黄 远,张 帆,易伟建.套筒约束灌浆料与钢筋黏结强度试验研究[J].湖南大学学报(自然科学版),2020,47(9):69-75.
HUANG Yuan,ZHANG Fan,YI Weijian.Experimental study on bond strength between sleeve confined grouting and steel bars[J].Journal of Hunan University(Natural Sciences),2020,47(9):69-75.
[7]XU T F,LI Q W,ZHAO R D,et al.On the early-age bond-slip behavior of an eccentric bar embedded in a grouted sleeve[J].Engineering Structures,2019,190:160-170.
[8]郑清林,王 霓,陶 里,等.灌浆套筒力学性能影响因素分类及其机理分析[J].四川建筑科学研究,2017,43(3):5-9.
ZHENG Qinglin,WANG Ni,TAO Li,et al.The analysis on classification and forming mechanism of factors that influence the mechanical performance of grout sleeve splicing[J].Sichuan Building Science,2017,43(3):5-9.
[9]渠 明,邵志伟,赵伟涛,等.灌浆套筒构件密实度超声波层析成像无损检测研究[J].工业建筑,2021,51(9):207-215.
QU Ming,SHAO Zhiwei,ZHAO Weitao,et al.Research on nondestructive testing of grouting sleeve members by ultrasonic tomography[J].Industrial Construction,2021,51(9):207-215.
[10]许国东,相秋迪,赵广志,等.X射线数字成像技术检测灌浆套筒施工质量的试验研究[J].建筑结构,2020,50(9):11-15,6.
XU Guodong,XIANG Qiudi,ZHAO Guangzhi,et al.Experimental study on construction quality of grouting sleeve detected by X-ray digital radiography technology[J].Building Structure,2020,50(9):11-15,6.
[11]XIE L L,WANG X Y,YANG C T,et al.Development and validation of a defect detection and repair method for half grouted sleeve connection[J].Case Studies in Construction Materials,2022,17:e01205.
[12]朱 虹,孙 瑜,董志强,等.基于压电陶瓷的灌浆套筒缺陷检测及应力传播模拟研究[J].建筑科学与工程学报,2022,39(4):117-126.
ZHU Hong,SUN Yu,DONG Zhiqiang,et al.Research on defect detection and stress propagation simulation of grouting sleeve based on piezoelectric ceramics[J].Journal of Architecture and Civil Engineering,2022,39(4):117-126.
[13]郑清林,王 霓,陶 里,等.灌浆缺陷对钢筋套筒灌浆连接试件性能影响的试验研究[J].建筑科学,2017,33(5):61-68.
ZHENG Qinglin,WANG Ni,TAO Li,et al.Experimental study on effects of grout defects on the connection behaviors of grout sleeve splicing for reinforcing bars[J].Building Science,2017,33(5):61-68.
[14]李向民,高润东,许清风,等.灌浆缺陷对钢筋套筒灌浆连接接头强度影响的试验研究[J].建筑结构,2018,48(7):52-56.
LI Xiangmin,GAO Rundong,XU Qingfeng,et al.Experimental study on influence of grouting defect on joint strength of grout sleeve splicing of rebars[J].Building Structure,2018,48(7):52-56.
[15]XIE L L,ZHONG B J,CHEN X,et al.Experimental investigation on the connection performance of defect detectable and repairable half-grouted sleeve under cyclic loads[J].Construction and Building Materials,2022,323:126593.
[16]XU F,WANG K,WANG S,et al.Experimental bond behavior of deformed rebars in half-grouted sleeve connections with insufficient grouting defect[J].Construction and Building Materials,2018,185:264-274.
[17]CHEN J W,WANG Z W,LIU Z Y,et al.Experimental investigation of mechanical behaviour of rebar in steel half-grouted sleeve connections with defects in water/binder ratio[J].Structures,2020,26:487-500.
[18]UNTRAUER R E,HENRY R L.Influence of normal pressure on bond strength[J].ACI Journal Proceedings,1965,62(5):577-586.
[19]Steels for the reinforcement of concrete — reinforcement couplers for mechanical splices of bars — part 2:test methods:ISO 15835-2:2009[S].Geneva:International Organization for Standardization,2009.
[20]闫乾勋,刘荣桂,耿豪劼,等.灌浆缺陷对全灌浆钢筋套筒连接性能影响[J].科学技术与工程,2022,22(11):4459-4466.
YAN Qianxun,LIU Ronggui,GENG Haojie,et al.Influence of grouting defects on the connection performance of fully grouted reinforcement sleeve[J].Science Technology and Engineering,2022,22(11):4459-4466.
[21]吴 涛,王 珅,刘毅斌,等.钢筋套筒灌浆连接件的力学性能[J].建筑科学与工程学报,2019,36(2):21-29.
WU Tao,WANG Shen,LIU Yibin,et al.Mechanical performance of reinforcement grouted sleeve connection[J].Journal of Architecture and Civil Engineering,2019,36(2):21-29.
[22]戴绍斌,郑小林,黄 俊,等.组合方形灌浆套筒连接性能试验[J].建筑科学与工程学报,2020,37(2):54-61.
DAI Shaobin,ZHENG Xiaolin,HUANG Jun,et al.Experiment on behavior of composite square grout-filled pipe splice[J].Journal of Architecture and Civil Engineering,2020,37(2):54-61.
[23]高 强,赵唯坚.高应力反复拉压作用下堆焊成型套筒灌浆连接性能试验研究[J].建筑结构学报,2022,43(4):220-227.
GAO Qiang,ZHAO Weijian.Experimental study on performance of grouted sleeve connection with surfacing forming under high stress repeated tension-compression load[J].Journal of Building Structures,2022,43(4):220-227.
[24]郑永峰.GDPS灌浆套筒钢筋连接技术研究[D].南京:东南大学,2016.
ZHENG Yongfeng.Research on rebar splicing system by GDPS grout-filled coupling sleeve[D].Nanjing:Southeast University,2016.
[25]ZHENG G Y,KUANG Z,XIAO J Z,et al.Mechanical performance for defective and repaired grouted sleeve connections under uniaxial and cyclic loadings[J].Construction and Building Materials,2020,233:117233.

相似文献/References:

备注/Memo

备注/Memo:
收稿日期:2023-08-07
基金项目:国家自然科学基金项目(52068013); 广西自然科学基金项目(2022GXNSFAA035581)
作者简介:刘其舟(1986-),男,工学博士,副教授,E-mail:liuqz@glut.edu.cn。
通信作者:张 璐(1983-),男,工学博士,教授,E-mail:zhanglu@glut.edu.cn。
更新日期/Last Update: 2024-07-20