Preliminary fatigue tests on concrete after exposure to temperature of up to 300 degree C

Xingang Zhou; John Zhang

Preliminary fatigue tests on concrete after exposure to temperature of up to 300 degree C

Research output: Contribution to journal › Article

Abstract

Micro-cracks in the vicinity of paste-aggregate interfaces and in the paste itself can be induced when concrete is exposed to elevated temperatures in the range 100Ãƒ"šÃ‚Â°C-300Ãƒ"šÃ‚Â°C. Although with increase of temperature, the strength of concrete becomes more and more influenced by the growing number of micro-cracks, the compressive strength of concrete at an elevated temperature lower than 300Ãƒ"šÃ‚Â°C is almost the same of concrete at room temperature. Under repeated load, those microcracks caused by temperature would propagate, enlarge and become linked up, as a result, the fatigue behavior of concrete would decrease. In this paper, tests have been carried out to study the fatigue behavior of concrete after exposure to elevated temperatures of up to 300Ãƒ"šÃ‚Â°C. Test results have shown that the reduction of fatigue strength of concrete is remarkable.

Original language	English
Journal	Advances in Structural Engineering - an International Journal
Publication status	Published - 2001

Keywords

concrete
high temperatures
micro-cracks

Cite this

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title = "Preliminary fatigue tests on concrete after exposure to temperature of up to 300 degree C",

abstract = "Micro-cracks in the vicinity of paste-aggregate interfaces and in the paste itself can be induced when concrete is exposed to elevated temperatures in the range 100{\~A}ƒ{"}{\v s}{\~A}‚{\^A}°C-300{\~A}ƒ{"}{\v s}{\~A}‚{\^A}°C. Although with increase of temperature, the strength of concrete becomes more and more influenced by the growing number of micro-cracks, the compressive strength of concrete at an elevated temperature lower than 300{\~A}ƒ{"}{\v s}{\~A}‚{\^A}°C is almost the same of concrete at room temperature. Under repeated load, those microcracks caused by temperature would propagate, enlarge and become linked up, as a result, the fatigue behavior of concrete would decrease. In this paper, tests have been carried out to study the fatigue behavior of concrete after exposure to elevated temperatures of up to 300{\~A}ƒ{"}{\v s}{\~A}‚{\^A}°C. Test results have shown that the reduction of fatigue strength of concrete is remarkable.",

keywords = "concrete, high temperatures, micro-cracks",

author = "Xingang Zhou and John Zhang",

year = "2001",

language = "English",

journal = "Advances in Structural Engineering - an International Journal",

issn = "1369-4332",

publisher = "Multi-Science Publishing",

}

TY - JOUR

T1 - Preliminary fatigue tests on concrete after exposure to temperature of up to 300 degree C

AU - Zhou, Xingang

AU - Zhang, John

PY - 2001

Y1 - 2001

N2 - Micro-cracks in the vicinity of paste-aggregate interfaces and in the paste itself can be induced when concrete is exposed to elevated temperatures in the range 100Ãƒ"šÃ‚Â°C-300Ãƒ"šÃ‚Â°C. Although with increase of temperature, the strength of concrete becomes more and more influenced by the growing number of micro-cracks, the compressive strength of concrete at an elevated temperature lower than 300Ãƒ"šÃ‚Â°C is almost the same of concrete at room temperature. Under repeated load, those microcracks caused by temperature would propagate, enlarge and become linked up, as a result, the fatigue behavior of concrete would decrease. In this paper, tests have been carried out to study the fatigue behavior of concrete after exposure to elevated temperatures of up to 300Ãƒ"šÃ‚Â°C. Test results have shown that the reduction of fatigue strength of concrete is remarkable.

AB - Micro-cracks in the vicinity of paste-aggregate interfaces and in the paste itself can be induced when concrete is exposed to elevated temperatures in the range 100Ãƒ"šÃ‚Â°C-300Ãƒ"šÃ‚Â°C. Although with increase of temperature, the strength of concrete becomes more and more influenced by the growing number of micro-cracks, the compressive strength of concrete at an elevated temperature lower than 300Ãƒ"šÃ‚Â°C is almost the same of concrete at room temperature. Under repeated load, those microcracks caused by temperature would propagate, enlarge and become linked up, as a result, the fatigue behavior of concrete would decrease. In this paper, tests have been carried out to study the fatigue behavior of concrete after exposure to elevated temperatures of up to 300Ãƒ"šÃ‚Â°C. Test results have shown that the reduction of fatigue strength of concrete is remarkable.

KW - concrete

KW - high temperatures

KW - micro-cracks

UR - http://handle.uws.edu.au:8081/1959.7/34769

M3 - Article

SN - 1369-4332

JO - Advances in Structural Engineering - an International Journal

JF - Advances in Structural Engineering - an International Journal

ER -

Preliminary fatigue tests on concrete after exposure to temperature of up to 300 degree C

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