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机制砂自密实混凝土路面疲劳损伤影响因素分析

符算子李红岩

中外公路2025，Vol.45Issue(4)：68-76,9.

中外公路2025，Vol.45Issue(4)：68-76,9.DOI:10.14048/j.issn.1671-2579.2025.04.009

机制砂自密实混凝土路面疲劳损伤影响因素分析

Factors Influencing Fatigue Damage in Manufactured Sand-Based Ecological Self-Compacting Concrete Pavement

符算子 ¹李红岩²

作者信息

1. 广东广惠高速公路有限公司,广东广州 510000
2. 新疆农业职业技术学院,新疆昌吉 831100
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摘要

Abstract

Ecological-self-compacting concrete(Eco-SCC)pavements offer advantages such as reduced cement consumption,lower carbon emissions,and improved economic performance.However,their durability has not been sufficiently studied.Based on the literature review and fatigue test data,the fatigue parameters of Eco-SCC were determined using the Chaboche damage evolution model.A finite element model of fatigue damage in Eco-SCC pavement structures was established to compare the fatigue damage distribution under different loading positions,identify the unfavorable loading positions,and analyze the influence of slab thickness and modulus on the durability of Eco-SCC pavements.SCC plate thickness and modulus on the durability of Eco-SCC pavement.The results show that fatigue damage under different loading positions is mainly distributed at the bottom of the slab,and controlling the bending and tensile stresses at the slab bottom is key to improving Eco SCC pavement durability.For longitudinal cracking,the most unfavorable loading positions are ranked as slab corner>slab edge>slab center;for transverse cracking,the order is slab edge>slab corner>slab center,which is consistent with the Specifications for Design of Highway Cement Concrete Pavement(JTG D40-2011).Increasing the slab thickness or decreasing the modulus effectively suppresses both transverse and longitudinal cracking of Eco-SCC pavements.To optimize longitudinal cracking control while delaying transverse cracking,it is recommended that,when the modulus is 24 000 MPa,30 000 MPa,and 40 000 MPa,the slab thicknesses be set at 26 cm,28 cm,and 30 cm,respectively.

关键词

水泥混凝土路面/生态自密实混凝土(Eco-SCC)/耐久性/有限元分析/疲劳损伤/结构优化

Key words

cement concrete pavement/ecological-self-compacting concrete(Eco-SCC)/durability/finite element analysis/fatigue damage/structural optimization

分类

交通工程

引用本文复制引用

符算子,李红岩..机制砂自密实混凝土路面疲劳损伤影响因素分析[J].中外公路,2025,45(4):68-76,9.

基金项目

新疆维吾尔自治区自然科学基金资助项目(编号:2021D01B70) （编号:2021D01B70）

中外公路

ISSN：1671-2579

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