Fracture Properties and Acoustic Emission Characteristics of Rubber Self-compacting Concrete

被引：0

作者：

Chen X. ^{[1
]}

Huang Y. ^{[1
]}

Chen C. ^{[1
]}

机构：

[1] College of Civil and Transportation Engineering, Hohai University, Nanjing

来源：

Jianzhu Cailiao Xuebao/Journal of Building Materials | 2021年 / 24卷 / 04期

关键词：

Acoustic emission(AE); Fracture property; Rubber content; Rubber self-compacting concrete;

D O I：

10.3969/j.issn.1007-9629.2021.04.012

中图分类号：

学科分类号：

摘要：

To study the influence of rubber on the fracture properties of self-compacting concrete, the three-point bending fracture tests of self-compacting concrete with four different rubber contents(0%, 10%, 20%, 30%) were carried out by applying acoustic emission(AE) technology. Based on the test results, the curve of P-CMOD, fracture energy and the characteristic parameters of acoustic emission were obtained. The influence of rubber content on the boundary effect was analyzed by drawing the relation curves of load, cumulative counts, cumulative hits and time. The width of the fracture process zone was obtained by the source location methods of AE. The fracture mode of specimen was analyzed by calculating the values of rise angle(RA) and average frequency(AF). The results show that with the increase of rubber content, the ductility and toughness of self-compacting concrete are improved, while the AE characteristics are as follows:the length of the boundary area and the signal activity decrease, while the width of the fracture process zone and the ratio of tensile crack increase. The energy absorption and diffusion effect of rubber particles play an important role in improving the fracture properties of rubber self-compacting concrete. © 2021, Editorial Department of Journal of Building Materials. All right reserved.

引用

页码：758 / 765

页数：7

共 14 条

[1] THOMAS B S, GUPTA R C., A comprehensive review on the applications of waste tire rubber in cement concrete, Renewable and Sustainable Energy Reviews, 54, pp. 1323-1333, (2016)
[2] WANG Junjun, ZHANG Yihua, QIN Wenxuan, Et al., Mechanical properties of rubber concrete, Bulletin of the Chinese Ceramic Society, 35, 7, pp. 2219-2223, (2016)
[3] MA Kunlin, LONG Guangcheng, XIE Youjun, Et al., Effect of rubber particles of self-compacting concrete, Journal of the Chinese Ceramic Society, 42, 8, pp. 966-973, (2014)
[4] TURATSINZE A, GARROS M., On the modulus of elasticity and strain capacity of self-compacting concrete incorporating rubber aggregates, Resources, Conservation and Recycling, 52, 10, pp. 1209-1215, (2008)
[5] LUO Surong, CHEN Weimei, WANG Xuefang, Fracture properties of rubberized self-compacting concrete, Journal of Hydraulic Engineering, 46, 2, pp. 217-222, (2015)
[6] GUAN Xiao, QIU Jisheng, DAI Jun, Et al., Acoustic emission characteristics and damage model of coal gangue concrete under axial compression, Journal of Building Materials, 22, 3, pp. 459-466, (2019)
[7] QIU Jisheng, PAN Du, GUAN Xiao, Et al., Acoustic emission characteristics of compression damage of coal gangue concrete after freeze-thaw cycles, Journal of Building Materials, 21, 2, pp. 196-201, (2018)
[8] HU Shaowei, LU Jun, FAN Xiangqian, Study on acoustic emission technique for normal concrete fracture test, Journal of Hydroelectric Engineering, 30, 6, pp. 16-19, (2011)
[9] CHEN C, CHEN X, GUO S., Experimental study on acoustic emission characteristic of fatigue crack growth of self-compacting concrete, Structural Control and Health Monitoring, 26, 4, (2019)
[10] Method of test for fracture energy of concrete by use of notched beam: JCI-S-001e2003, (2003)

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