Relationship Between Dynamic Tensile Strength and Pore Structure of Saturated Concrete under Lateral Pressure

Hao Wang; Licheng Wang; Bahman Ghiassi; Yupu Song; Le Zhou; Dongxu Hou

doi:10.1007/s12205-022-0567-6

Relationship Between Dynamic Tensile Strength and Pore Structure of Saturated Concrete under Lateral Pressure

Hao Wang^*, Licheng Wang, Bahman Ghiassi, Yupu Song, Le Zhou, Dongxu Hou

^*Corresponding author for this work

Civil Engineering

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Abstract

The dynamic properties of concrete in two states (saturated and dry) were compared and analyzed through a series of dynamic biaxial tensile-compressive (T-C) experimentals. All specimens were subjected to constant biaxial T-C stress ratios (0.5:−1, 0.25:−1, 0.1:−1, 0.05:−1 and 1:0 respectively) at different strain rates (10−5s⁻¹ to 10−2s⁻¹). It was found that the biaxial T-C ultimate strengths of both kinds concrete closely relate to the lateral pressure of the specimen, and the independent tensile and compressive strength increases with the increase of strain rate. In the case of exerting lateral pressure, the failure states of specimens show same manner as that of the uniaxial tensile specimens, which indicates that the specimens were completely fractured under tensile loading. The test results show that the biaxial T-C strength of saturated concrete is lower at strain rates of 10−5s⁻¹, whereas it is higher at the other three strain rates (10−4s⁻¹, 10−3s⁻¹ and 10−2 s⁻¹). This distinct difference indicates that saturated concrete is more rate sensitive under lateral pressure. Through mechanical analysis the article explains the reason of this phenomenon is mainly dued to the beneficial tensile stress of the pore water surface and the Stefan effect. Meanwhile, the strength prediction expression of saturated concrete was established under the condition of stress ratio and strain rate are considered simultaneously.

Original language	English
Pages (from-to)	1166–1173
Number of pages	8
Journal	KSCE Journal of Civil Engineering
Volume	27
Issue number	3
Early online date	23 Dec 2022
DOIs	https://doi.org/10.1007/s12205-022-0567-6
Publication status	Published - Mar 2023

Bibliographical note

Acknowledgments:
This study is supported by the National Natural Science Foundation of China (grant No. 51079019; 51378090; 51978416) and China Scholarship Council (No. (2019) 75) and Young and Middle-aged Innovative Talents Support Program of Shenyang Science and Technology Bureau (No. RC190199).

Keywords

Saturated concrete
Experiment
Tensile strength
Biaxial T-C
Lateral pressures
Strain rates
Strength prediction expression

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10.1007/s12205-022-0567-6

WangH2023Relationship
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Cite this

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title = "Relationship Between Dynamic Tensile Strength and Pore Structure of Saturated Concrete under Lateral Pressure",

abstract = "The dynamic properties of concrete in two states (saturated and dry) were compared and analyzed through a series of dynamic biaxial tensile-compressive (T-C) experimentals. All specimens were subjected to constant biaxial T-C stress ratios (0.5:−1, 0.25:−1, 0.1:−1, 0.05:−1 and 1:0 respectively) at different strain rates (10−5s−1 to 10−2s−1). It was found that the biaxial T-C ultimate strengths of both kinds concrete closely relate to the lateral pressure of the specimen, and the independent tensile and compressive strength increases with the increase of strain rate. In the case of exerting lateral pressure, the failure states of specimens show same manner as that of the uniaxial tensile specimens, which indicates that the specimens were completely fractured under tensile loading. The test results show that the biaxial T-C strength of saturated concrete is lower at strain rates of 10−5s−1, whereas it is higher at the other three strain rates (10−4s−1, 10−3s−1 and 10−2 s−1). This distinct difference indicates that saturated concrete is more rate sensitive under lateral pressure. Through mechanical analysis the article explains the reason of this phenomenon is mainly dued to the beneficial tensile stress of the pore water surface and the Stefan effect. Meanwhile, the strength prediction expression of saturated concrete was established under the condition of stress ratio and strain rate are considered simultaneously.",

keywords = "Saturated concrete, Experiment, Tensile strength, Biaxial T-C, Lateral pressures, Strain rates, Strength prediction expression",

author = "Hao Wang and Licheng Wang and Bahman Ghiassi and Yupu Song and Le Zhou and Dongxu Hou",

note = "Acknowledgments: This study is supported by the National Natural Science Foundation of China (grant No. 51079019; 51378090; 51978416) and China Scholarship Council (No. (2019) 75) and Young and Middle-aged Innovative Talents Support Program of Shenyang Science and Technology Bureau (No. RC190199).",

year = "2023",

month = mar,

doi = "10.1007/s12205-022-0567-6",

language = "English",

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pages = "1166–1173",

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AU - Wang, Hao

AU - Wang, Licheng

AU - Ghiassi, Bahman

AU - Song, Yupu

AU - Zhou, Le

AU - Hou, Dongxu

N1 - Acknowledgments: This study is supported by the National Natural Science Foundation of China (grant No. 51079019; 51378090; 51978416) and China Scholarship Council (No. (2019) 75) and Young and Middle-aged Innovative Talents Support Program of Shenyang Science and Technology Bureau (No. RC190199).

PY - 2023/3

Y1 - 2023/3

N2 - The dynamic properties of concrete in two states (saturated and dry) were compared and analyzed through a series of dynamic biaxial tensile-compressive (T-C) experimentals. All specimens were subjected to constant biaxial T-C stress ratios (0.5:−1, 0.25:−1, 0.1:−1, 0.05:−1 and 1:0 respectively) at different strain rates (10−5s−1 to 10−2s−1). It was found that the biaxial T-C ultimate strengths of both kinds concrete closely relate to the lateral pressure of the specimen, and the independent tensile and compressive strength increases with the increase of strain rate. In the case of exerting lateral pressure, the failure states of specimens show same manner as that of the uniaxial tensile specimens, which indicates that the specimens were completely fractured under tensile loading. The test results show that the biaxial T-C strength of saturated concrete is lower at strain rates of 10−5s−1, whereas it is higher at the other three strain rates (10−4s−1, 10−3s−1 and 10−2 s−1). This distinct difference indicates that saturated concrete is more rate sensitive under lateral pressure. Through mechanical analysis the article explains the reason of this phenomenon is mainly dued to the beneficial tensile stress of the pore water surface and the Stefan effect. Meanwhile, the strength prediction expression of saturated concrete was established under the condition of stress ratio and strain rate are considered simultaneously.

AB - The dynamic properties of concrete in two states (saturated and dry) were compared and analyzed through a series of dynamic biaxial tensile-compressive (T-C) experimentals. All specimens were subjected to constant biaxial T-C stress ratios (0.5:−1, 0.25:−1, 0.1:−1, 0.05:−1 and 1:0 respectively) at different strain rates (10−5s−1 to 10−2s−1). It was found that the biaxial T-C ultimate strengths of both kinds concrete closely relate to the lateral pressure of the specimen, and the independent tensile and compressive strength increases with the increase of strain rate. In the case of exerting lateral pressure, the failure states of specimens show same manner as that of the uniaxial tensile specimens, which indicates that the specimens were completely fractured under tensile loading. The test results show that the biaxial T-C strength of saturated concrete is lower at strain rates of 10−5s−1, whereas it is higher at the other three strain rates (10−4s−1, 10−3s−1 and 10−2 s−1). This distinct difference indicates that saturated concrete is more rate sensitive under lateral pressure. Through mechanical analysis the article explains the reason of this phenomenon is mainly dued to the beneficial tensile stress of the pore water surface and the Stefan effect. Meanwhile, the strength prediction expression of saturated concrete was established under the condition of stress ratio and strain rate are considered simultaneously.

KW - Saturated concrete

KW - Experiment

KW - Tensile strength

KW - Biaxial T-C

KW - Lateral pressures

KW - Strain rates

KW - Strength prediction expression

U2 - 10.1007/s12205-022-0567-6

DO - 10.1007/s12205-022-0567-6

M3 - Article

VL - 27

SP - 1166

EP - 1173

JO - KSCE Journal of Civil Engineering

JF - KSCE Journal of Civil Engineering

IS - 3

ER -

Relationship Between Dynamic Tensile Strength and Pore Structure of Saturated Concrete under Lateral Pressure

Abstract

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