Deformation Characteristics of Concrete under Uniaxial Compression

Guo Jun Liu

doi:10.4028/www.scientific.net/AMM.670-671.428

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 670-671Deformation Characteristics of Concrete under...

Deformation Characteristics of Concrete under Uniaxial Compression

Abstract:

Depth study of deformation characteristics of concrete can reveal failure mechanism of concrete materials based on strain. This paper studies the deformation characteristics of concrete under uniaxial compression, and draw conclusions that deformation can cause the expansion of internal micro cracks, in accordance with the expansion of micro cracks, the law of cracks development of concrete under uniaxial loads is divided into three stages, micro-cracks relatively stable, stable crack development period and unstable crack development period. The research results can provide valuable reference for future research work.

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Periodical:

Applied Mechanics and Materials (Volumes 670-671)

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428-431

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.670-671.428

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Online since:

October 2014

Authors:

Guo Jun Liu

Keywords:

Concrete, Crack, Deformation, Uniaxial Compression

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References

[1] Yupu Song, Guofan Zhao, Peng Fang and Hu Beilei, In: General Failure Criterion For Different Concrete Materials Under Multi-axial Stresses. China Civil Engineering Journal. Vol. 29, P. 25-32. (1996).

Google Scholar

[2] Yupu Song, Guofan Zhao, Peng Fang and Beilei Hu, In: General Failure Criterion For Different Concrete Materials Under Multi-axial Stresses (In Chinese). China Civil Engineering Journal. Vol. 29, P. 25-32. (1996).

Google Scholar

[3] Ruimin Wang, Song Pu, Zhao Guofan. Fatigue Strength Of Concrete Under Repeated Stress Amplitude [J]. Industrial Buildings. 1992 (12).

Google Scholar

[4] Shengqian Huang, Yongqing Yang, Li Xiaobin. A Uniform Formulation of Space Creep of Concrete Under Various Stress State . Materials Review. 2013, 27(1): 150-152.

Google Scholar

[5] Wang Ruimin, Zhao Guofan, Song Yupu . Study on Concrete compressive fatigue performance [J]. Journal of Civil Engineering, 1991, 24 (4): 38-47.

Google Scholar

[6] Surendra P. Shah and Sushil. Chandra. Fracture of Concrete Subjected to Cyclic and Sustained Loading[J]. ACI. Journal, October, 1970, 816-827.

Google Scholar

[7] Ruimin Wang, Song Pu, Guofan Zhao. Probability Analysis of Fatigue Damage Of Concrete. Dalian University of Technology, 1991, 31(3): 331-336.

Google Scholar

[8] Van Ornum J L. Fatigue of cement products[J]. Transactions, ASCE. 1903, 51, 443.

Google Scholar

[9] Clemmer H E. Fatigue of Concrete[M]. ASTM, 1922, 22(part 2): 408-419.

Google Scholar

[10] Nordby G. M. Fatigue of concrete-A review of research [J]. ACI Journal, 1958, 55(2): 191-220.

Google Scholar

[11] Sturman. G. M, Shah SP, Winter G. Effects of Flexural Strain Gradients on Microcracking and Stress-Strain Behavior of Concrete[J]. Journal of ACI, 1965, 805-822.

DOI: 10.14359/7725

Google Scholar

[12] Clark L E, Gerstle KH, Tulin LG. Effects of Strain-Gradient on the Stress-Strain Curve of mortar and Concrete[J]. Joural of ACI, 1967, 580-586.

Google Scholar

[13] Rusch.H. Research toward a General Flexural Theory[J]. Journal of ACI, 1960, 32(1).

Google Scholar

[14] Hognestad E, et al. Concrete Stress Distribution in Ultimate Strengteh Design [J]. Joural of ACI, DEC 1955, 455-479.

Google Scholar