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

卷:

38卷

期数:

2021年06期

页码:

48-54

栏目:

软土基坑设计与变形控制

出版日期:

2021-11-05

文章信息/Info

Title:

Correction Method of Axial Force Monitoring Value of Concrete Strut in Excavation

文章编号:

1673-2049(2021)06-0048-07

作者:

徐昭辰^1,2,王 强³,章定文^1,2,朱湘旭³,王治宇³

(1. 东南大学 交通学院,江苏 南京 211189; 2. 东南大学 道路交通工程国家级实验教学示范中心,江苏 南京 211189; 3. 中建八局轨道交通建设有限公司,江苏 南京 210046)

Author(s):

XU Zhao-chen^1,2, WANG Qiang³, ZHANG Ding-wen^1,2, ZHU Xiang-xu³, WANG Zhi-yu³

(1. School of Transportation, Southeast University, Nanjing 211189, Jiangsu, China; 2. National Demonstration Center for Experimental Road and Traffic Engineering Education, Southeast University, Nanjing 211189, Jiangsu, China; 3. China Construction Eighth Engineering Division Rail Transit Construction Co., Ltd, Nanjing 210046, Jiangsu, China)

关键词:

基坑;  混凝土支撑轴力;  非荷载影响因素;  轴力修正

Keywords:

excavation;  axial force of concrete strut;  non-load factor;  axial force correction

分类号:

TU973.2

DOI:

10.19815/j.jace.2021.09023

文献标志码:

A

摘要:

为研究宁句城际轨道句容站基坑工程混凝土支撑轴力监测值异常报警现象,考虑混凝土收缩、徐变、弹性模量和温度等非荷载因素,采用理论分析和现场实测相结合的方法,探讨了基于理论的轴力修正公式法和基于现场实测的轴力修正系数法。结果表明:混凝土支撑轴力修正公式可对徐变应变、收缩应变和温度应变进行修正并考虑混凝土弹性模量的非线性变化,由修正公式算得的支撑轴力修正值为原始监测值的55%～64%,修正值更能反映混凝土支撑的真实受力状态; 对混凝土支撑轴力影响程度由大到小依次为混凝土徐变、混凝土收缩和混凝土弹性模量,徐变对支撑监测值的影响最显著; 结合现场实测数据,根据句容站基坑混凝土支撑轴力理论修正系数随时间变化的公式可直接计算偏保守的轴力修正值; 工程中可采用支撑残余轴力测试、钢箱测试等方法对混凝土支撑轴力监测值进行修正,综合理论分析、现场实测和文献中实测数据,实际基坑工程中混凝土支撑轴力修正系数可取0.5～0.65来估算支撑的真实轴力值。

Abstract:

To investigate the abnormal alarm of axial force monitoring value of concrete strut in excavation project of Jurong station of Nanjing-Jurong rail, the theoretical axial force correction formula and the axial force correction coefficient based on field measurements were discussed by combining theoretical analysis and field measurements for non-load factors such as concrete shrinkage, creep, modulus of elasticity and temperature. The results show that the correction formula can correct the creep strain, shrinkage strain and temperature strain considering the non-linear changes in concrete modulus. The axial force correction value calculated by the formula is 55%-64% of the original monitoring value, and the corrected value can better reflect the real state of the concrete strut. The descending orders of the influence on the axial force are concrete creep, concrete shrinkage and concrete modulus, with creep having the most significant influence. Combined with the field measured data of this project, the empirical formula of the axial force correction coefficient of concrete strut in excavation of Jurong station with time is obtained, according to which a conservative correction value can be calculate directly. In engineering practice, the measured concrete axial force can be corrected by means of residual axial force measurement and steel box test. Based on the theoretical analysis, field measurement and measured data in the literatures, a correction coefficient of axial force of concrete strut can be taken as 0.5-0.65 when the non-load factors are considered.

参考文献/References:

[1] 孙 超,郭浩天.深基坑支护新技术现状及展望[J].建筑科学与工程学报,2018,35(3):104-117.
SUN Chao,GUO Hao-tian.Present Situation and Prospect of New Technology for Deep Foundation Pit Support[J].Journal of Architecture and Civil Engineering,2018,35(3):104-117.
[2]KIM S,FINNO R J.Inverse Analysis of a Support Excavation in Chicago[J].Journal of Geotechnical and Geoenvironmental Engineering,2019,145(9):04019050.
[3]WANG Z C,WANG C.Analysis of Deep Foundation Pit Construction Monitoring in a Metro Station in Jinan City[J].Geotechnical and Geological Engineering,2019,37:813-822.
[4]张 哲.基坑混凝土支撑轴力监测数据异常情况分析与探讨[J].隧道建设,2016,36(8):976-981
ZHANG Zhe.Analysis and Discussion of Monitoring Data Anomaly of Axial Force for Concrete Support of Foundation Pit[J].Tunnel Construction,2016,36(8):976-981.
[5]陈小羊,冯大阔,王寿忆,等.数据监测在深基坑开挖过程中的应用分析[J].施工技术,2018,47(增4):11-17.
CHEN Xiao-yang,FENG Da-kuo,WANG Shou-yi,et al.Analysis on the Application of Data Monitoring in Deep Foundation Excavation[J].Construction Technology,2018,47(S4):11-17.
[6]张 浩,吴志鸿,张 峰,等.深基坑混凝土支撑轴力精确性分析[J].地下空间与工程学报,2018,14(增1):342-348.
ZHANG Hao,WU Zhi-hong,ZHANG Feng,et al.Accuracy Analysis on Axial Force of Concrete Support in Deep Foundation Pit[J].Chinese Journal of Underground Space and Engineering,2018,14(S1):342-348.
[7]刘俊岩.建筑基坑工程监测技术规范(GB 50497—2009)实施手册[M].北京:中国建筑工业出版社,2010.
LIU Jun-yan.Implementation Manual of Technical Code for Monitoring of Building Excavation Engineering(GB 50497—2009)[M].Beijing:China Architecture & Building Press,2010.
[8]陈 科.成都地铁四号线万年场站深基坑混凝土支撑轴力监测及影响因素分析[D].绵阳:西南科技大学,2018.
CHEN Ke.Struct Axial Forces Monitoring and Influence Factors Analysis of Concrete in Deep Foundation Pit of Chengdu Metro Line Four Wannian Station[D].Mianyang:Southwest University of Science and Technology,2018.
[9]BOONE S J,CRAWFORD A M.Braced Excavations:Temperature,Elastic Modulus,and Strut Loads[J].Journal of Geotechnical and Geoenvironmental Engineering,2000,126(10):870-881.
[10]BLACKBURN J T,FINNO R J.Three-dimensional Responses Observed in an Internally Braced Excavation in Soft Clay[J].Journal of Geotechnical and Geoenvironmental Engineering,2007,133(11):1364-1373.
[11]刘 畅,张亚龙,郑 刚,等.季节性温度变化对某深大基坑工程的影响分析[J].岩土工程学报,2016,38(4):627-635.
LIU Chang,ZHANG Ya-long,ZHENG Gang,et al.Effects of Seasonal Temperature Change on a Large Excavation Project[J].Chinese Journal of Geotechnical Engineering,2016,38(4):627-635.
[12]郑文尤.深大基坑中混凝土支撑收缩徐变对围护结构内力及位移影响分析[D].上海:同济大学,2008.
ZHENG Wen-you.Analysis of the Effect of Shrinkage Creep of Concrete Supports on the Internal Forces and Displacements of the Enclosure in Deep and Large Foundation Pits[D].Shanghai:Tongji University,2008.
[13]李兆源.基坑混凝土支撑轴力监测值计算方法研究[D].广州:华南理工大学,2014.
LI Zhao-yuan.Research on Calculation Method of Concrete Strut Axial Force Monitoring Value on Excavation[D].Guangzhou:South China University of Technology,2014.
[14]肖振烨,李素贞,崔晓强.基于应变监测的基坑钢筋混凝土支撑轴力修正方法[J].重庆大学学报,2018,41(11):8-18.
XIAO Zhen-ye,LI Su-zhen,CUI Xiao-qiang.Study on Force Correction Method of Reinforced Concrete Brace Shaft in Foundation Ditch Based on Strain Monitoring[J].Journal of Chongqing University,2018,41(11):8-18.
[15]陈进河,陈国良,陈 健,等.基于光纤传感技术的混凝土支撑轴力监测及数据分析[J].现代城市轨道交通,2020(5):61-67.
CHEN Jin-he,CHEN Guo-liang,CHEN Jian,et al.Monitoring and Data Analysis of Axial Force of Concrete Support Based on Optical Fiber Sensing Technology[J].Modern Urban Transit,2020(5):61-67.
[16]钟思成.时间效应对钢筋混凝土支撑轴力的影响分析[J].现代隧道技术,2020,57(增1):1293-1297.
ZHONG Si-cheng.Analysis of the Influence of Time Effect on Axial Force of Reinforced Concrete Strut[J].Modern Tunnelling Technology,2020,57(S1):1293-1297.
[17]BAZANT Z P,MURPHY W P.Creep and Shrinkage Prediction Model for Analysis and Design of Concrete Structures:Model B3[J].Materials and Structures,1995,28(6):357-365.
[18]GOEL R,KUMAR R,PAUL D K.Comparative Study of Various Creep and Shrinkage Prediction Models for Concrete[J].Journal of Materials in Civil Engineering,2007,19(3):249-260.
[19]YU P,DUAN Y H,FAN Q X,et al.Improved MPS Model for Concrete Creep Under Variable Humidity and Temperature[J].Construction and Building Materials,2020,243:118183.
[20]GB 50010—2010,混凝土结构设计规范[S].
GB 50010—2010,Code for Design of Concrete Structures[S].
[21]孙 璨.钢筋混凝土结构长期徐变收缩效应研究应用[D].哈尔滨:哈尔滨工业大学,2010.
SUN Can.Research and Application of Long-term Creep and Shrinkage Effects on Reinforced Concrete Structure[D].Harbin:Harbin Institute of Technology,2010.
[22]鲁智明,和再良,陈 刚.基坑工程监测中钢筋混凝土支撑轴力测试计算方法[J].上海地质,2010(1):46-49.
LU Zhi-ming,HE Zai-liang,CHEN Gang.Measurement and Calculation Method of Steal Concrete Bracing Axial Force in Foundation Pit Monitoring Survey[J].Shanghai Geology,2010(1):46-49.
[23]黄国兴,惠荣炎,王秀军.混凝土徐变与收缩[M].北京:中国电力出版社,2012.
HUANG Guo-xing,HUI Rong-yan,WANG Xiu-jun.Concrete Creep and Shrinkage[M].Beijing:China Electric Power Press,2012.
[24]叶万灵.围护结构中钢筋混凝土支撑轴力和变形的研究[J].土木工程学报,2000,33(5):83-87,96.
YE Wan-ling.Research on the Axial Force and Deformation of Reinforced Concrete Braces of Support Structures[J].China Civil Engineering Journal,2000,33(5):83-87,96.
[25]张开伟,郝佳福,陈 宏.支护结构混凝土支撑轴力受力组成分析研究[J].城市勘测,2017(1):169-171.
ZHANG Kai-wei,HAO Jia-fu,CHEN Hong.Concrete Supporting Axial Force of Support Structure Analysis[J].Urban Geotechnical Investigation & Surveying,2017(1):169-171.

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[2]杨敏,刘斌.土钉抗拔承载力经验验算方法[J].建筑科学与工程学报,2010,27(02):18.
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备注/Memo

备注/Memo:

收稿日期:2021-09-11
基金项目:国家自然科学基金项目(52078129)
作者简介:徐昭辰(1997-),男,黑龙江黑河人,工学硕士研究生,E-mail:220203211@seu.edu.cn。
通信作者:章定文(1978-),男,江苏南京人,教授,博士研究生导师,工学博士,E-mail:zhang@seu.edu.cn。

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更新日期/Last Update: 2021-11-01