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2015 , Vol. 32 >Issue 8: 121 - 125

DOI: https://doi.org/10.3969/j.issn.1001-5485.2015.08.022

水工结构与材料

不同尺寸混凝土的动态峰值应力-应变关系及峰后软化特性的研究

  • 潘青松 ,
  • 彭 刚 ,
  • 张亮亮 ,
  • 曹自潭
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  • 三峡大学 土木与建筑学院, 湖北 宜昌 443002
潘青松(1989-),男,河南周口人,硕士研究生,主要从事混凝土材料动力特性及结构抗震研究,(电话)15586374129 (电子信箱)280469557@qq.com。
   通讯作者:彭 刚(1963-),男,湖南岳阳人,教授,博士生导师,研究方向为混凝土材料动力特性及结构抗震,(电话)13972604433(电子信箱)gpeng158@126.com。

收稿日期: 2014-03-12

  网络出版日期: 2015-08-18

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Dynamic Peak Stress-strain Relation and Post-peak SofteningProperties of Concrete with Different Sizes

  • PAN Qing-song ,
  • PENG Gang ,
  • ZHANG Liang-liang ,
  • CAO Zi-tan
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  • College of Civil Engineering & Architecture, Three Gorges University, Yichang 443002, China

Received date: 2014-03-12

  Online published: 2015-08-18

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摘要

采用电液伺服大型多功能动静三轴仪对不同应变速率(10-5/s,10-4/s,10-3/s,10-2/s)下不同尺寸(150,300,450 mm)的立方体混凝土试件进行单轴动态压缩试验,对不同尺寸混凝土动态物理力学参数(峰值应力、峰值应变)、实验破坏机理及峰后应变软化进行分析,并对不同尺寸混凝土在不同的应变速率下的软化性能进行研究。研究结果表明混凝土峰值应力、峰值应变都随试件尺寸增大而降低;混凝土强度随着应变速率的增加而增加;峰值应变后,随着试件尺寸增加,应力-应变曲线斜率绝对值增加,延性减小;试件尺寸为150 mm混凝土的软化现象随着应变速率的提高而愈加明显,且软化程度呈增加趋势,试件尺寸为300 mm和450 mm混凝土的软化现象随着应变速率的提高而变得越来越弱化,当应变速率增加到一定值时,软化现象又变得明显;在同一应变速率下,随试件尺寸的增加软化现象越来越明显。

关键词: 混凝土; 尺寸效应; 动态特性; 抗压强度; 软化特性; 应力-应变关系

本文引用格式

潘青松 , 彭 刚 , 张亮亮 , 曹自潭 . 不同尺寸混凝土的动态峰值应力-应变关系及峰后软化特性的研究[J]. 长江科学院院报, 2015 , 32(8) : 121 -125 . DOI: 10.3969/j.issn.1001-5485.2015.08.022

Abstract

The physical and mechanical parameters (peak stress, peak strain), failure mechanism and post-peak strain softening (softening performance) of concrete with different sizes under different strain rates were researched through uniaxial dynamic compression test. The test was conducted on cubic concrete specimens of different sizes (150mm,300mm, 450mm) at different strain rates (10-5/s, 10-4/s, 10-3/s, 10-2/s) by large multi-functional electro-hydraulic servo static triaxial machine. Results showed that concrete’s peak stress and peak strain both reduced with the increase of specimen size; concrete strength increased with the increase of strain rate; after the peak strain occurred, the absolute value of the stress-strain curve slope increased whereas the ductility reduced as the specimen size increases. For the specimen size of 150mm, concrete softening strengthened with increasing strain rate, and the softening degree increased; while for the specimen size of 300mm and 450mm, the softening weakened when strain rate increased, but when the strain rate increased to a certain value, the softening became apparent. At the same strain rate, the softening was increasingly apparent with the increase of specimen size.

Key words: concrete; size effect; dynamic characteristics; compressive strength; softening characteristics; stress-strain relationship

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