«Previous Article|Table of Contents|Next Article»

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

Issue:

2020年02期

Page:

81-90

Research Field:

Publishing date:

Info

Title:

Equal Durability Design Method for Concrete Structure

Author(s):

CHEN Lin¹;  QU Wen-jun²;  ZHU Peng²;  XIAO Jie³

(1. Shanghai Baoye Group Corp., Ltd., Shanghai 200941, China; 2. Department of Structural Engineering, Tongji University, Shanghai 200092, China; 3. School of Civil and Transportation Engineering, Guangdong University of Technology, Guangzhou 510006, Guan

Keywords:

concrete structure;  equal durability design;  service life;  thickness of protective layer

PACS:

TU318

DOI:

10.19815/j.jace.2019.03059

Abstract:

In view of the phenomenon that the durability of concrete structure was unbalanced, based on the durability design of concrete section, the durability design method of concrete structure was put forward, and the definition of equal durability design method was proposed. The component in concrete structure was classified and the service lives of different types of components were set to achieve the equal durability design method for sections. Firstly, the structure was divided into layers and modules. Based on the principle of equal durability, the target service life of each layer were determined, and then the service life was designed to make the durability service of each layer meet the requirements. At the level of component interface, measures were taken to avoid the durability failure caused by the early corrosion of the reinforcement at the corner of the interface, so as to achieve the equal durability of the section. By using the rules and methods of hierarchical modular division of structure, the method and process of determining the target service life based on the principle of equal durability, the overall process of equal durability design and the range of service life safety factors of different durability levels were proposed. For the corners where the durability was seriously insufficient, the reinforcement was replaced with stainless FRP reinforcement to avoid premature failure of the durability, and the test parts needed to meet the requirements of equal durability by adjusting the thickness of the protective layer. Due to the different local environment, the same type of components needed to set different thickness of protective layer to achieve the goal of equal durability. The process of durability design such as interface and structure level was proved by an example of a concrete bridge. The results show that the durability design can optimize the service life of various components, reasonably arrange the initial investment, reduce the number of overhaul, reduce the maintenance cost in the later stage of the structure, extend the structure life, and realize the sustainable development of concrete structure.

References:

[1] 屈文俊,郭 猛.混凝土截面角区双向碳化的计算模型与试验研究[J].工业建筑,2005,35(增1):687-690.
QU Wen-jun,GUO Meng.Calculation Model and Experimental Study of Two-way Carbonization of Concrete Section Corner[J].Industrial Construction,2005,35(S1):687-690.
[2]屈文俊.既有混凝土桥梁的耐久性评估及寿命预测[D].成都:西南交通大学,1995.
QU Wen-jun.Durability Evaluating and Life Predicting on Existing Concrete Bridges[D].Chengdu:Southwest Jiaotong University,1995.
[3]田 浩,李国平,刘 杰,等.受力状态下混凝土试件碳化试验研究[J].同济大学学报:自然科学版,2010,38(2):200-204,213.
TIAN Hao,LI Guo-ping,LIU Jie,et al.Experimental Research on Carbonation of Forced Concrete Specimens[J].Journal of Tongji University:Natural Science,2010,38(2):200-204,213.
[4]屈文俊,郭 猛.风压影响混凝土碳化试验研究[J].混凝土,2005(1):49-51.
QU Wen-jun,GUO Meng.Testing Study on Concrete Carbonization Influenced by Wind Pressure[J].Concrete,2005(1):49-51.
[5]张 伟,董志良,吕 黄.混凝土氯离子二维扩散模型及工程验证[J].水运工程,2009(6):35-39.
ZHANG Wei,DONG Zhi-liang,LU Huang.Two-dimensional Model for Chloride Diffusion in Concrete and Engineering Verification[J].Port & Waterway Engineering,2009(6):35-39.
[6]赵 筠.钢筋混凝土结构的工作寿命设计——针对氯盐污染环境[J].混凝土,2004(1):3-15,21.
ZHAO Jun.Service Life Design of Reinforced Concrete Structures Exposed to Chloride Environment[J].Concrete,2004(1):3-15,21.
[7]GIORV O E.严酷环境下混凝土结构的耐久性设计[M].2版.赵铁军,译.北京:中国建材工业出版社,2015.
GJORV O E.Durability Design of Concrete Structures in Severe Environments[M].2nd ed.Translated by ZHAO Tie-jun.Beijing:China Building Materials Press,2015.
[8]吴海军.桥梁结构耐久性设计方法研究[D].上海:同济大学,2006.
WU Hai-jun.Durability Design Approaches for Bridge Structures[D].Shanghai:Tongji University,2006.
[9]ENRIGHT M P,FRANGOPOL D.Survey and Evaluation of Damaged Concrete Bridges[J].Journal of Bridge Engineering,2000,5(1):31-38.
[10]屈文俊,车惠民.混凝土桥梁的优化等耐久性设计[J].土木工程学报,1998,31(4):23-30.
QU Wen-jun,CHE Hui-min.Design of Optimum Equal Durability About Concrete Bridges[J].China Civil Engineering Journal,1998,31(4):23-30.
[11]屈文俊,张 誉.混凝土桥梁的耐久性维护方法[J].铁道学报,2001,23(1):98-102.
QU Wen-jun,ZHANG Yu.Method for Durability Maintenance of Concrete Bridge[J].Journal of the China Railway Society,2001,23(1):98-102.
[12]屈文俊,陈道普,黄海群.钢-GFRP混合配筋混凝土梁抗弯承载力计算[J].建筑结构,2006,36(12):22-24.
QU Wen-jun,CHEN Dao-pu,HUANG Hai-qun.Bending Moment Resistance Calculation of Steel-GFRP Reinforced Concrete Beam[J].Building Structure,2006,36(12):22-24.
[13]屈文俊,顾俊颉,秦宇航.RPC-NC组合截面梁的耐久性试验研究[J].结构工程师,2009,25(1):106-108.
QU Wen-jun,GU Jun-jie,QIN Yu-hang.Experimental Study on the Durability of PRC-NC Combined Section Beams[J].Structural Engineers,2009,25(1):106-108.
[14]陈 琳,屈文俊,朱 鹏.混凝土结构全寿命等耐久性设计的理论框架[J].建筑科学与工程学报,2016,33(3):93-103.
CHEN Lin,QU Wen-jun,ZHU Peng.Theoretical Framework of Life Cycle Equal Durability Design Method in Concrete Structure[J].Journal of Architecture and Civil Engineering,2016,33(3):93-103.
[15]董振平,牛荻涛,刘西芳,等.一般大气环境下钢筋开始锈蚀时间的计算方法[J].西安建筑科技大学学报:自然科学版,2006,38(2):204-209.
DONG Zhen-ping,NIU Di-tao,LIU Xi-fang,et al.Calculation Method of the Initial Time of Steel-bar Corrosion Under Atmospheric Environment[J].Journal of Xi'an University of Architecture & Technology:Natural Science Edition,2006,38(2):204-209.
[16]EL MAADDAWY T E,SOUDKI K.A Model for Prediction of Time from Corrosion Initiation to Corrosion Cracking[J].Cement & Concrete Composites,2007,29(3):168-175.
[17]MULLARD J A,STEWART M G.Corrosion-induced Cover Cracking of RC Structures:New Experimental Data and Predictive Models[R].Newcastle:University of Newcastle,2009.

Memo

Memo:

-

Common functions

Last Update: 2020-04-21