Under the Corrosion in Sodium Fatigue Performance of Concrete

Abstract:

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Many Marine environment or other corrosion in the concrete structure under the condition of fatigue cycle usually bear, thus make these components of fatigue and corrosion under coupling effect, thus speeding up the process of structure component, killing structure degradation of corrosion fatigue. This paper using self-designed corrosion fatigue loading test device, studied in sodium solution of concrete under the action of erosion strength increasing regularity, results show that the concrete strength by corrosion fatigue than fatigue specimen attenuation extent.

Info:

Periodical:

Edited by:

Xuejun Zhou

Pages:

1180-1183

DOI:

10.4028/www.scientific.net/AMM.94-96.1180

Citation:

J. H. Zhou et al., "Under the Corrosion in Sodium Fatigue Performance of Concrete", Applied Mechanics and Materials, Vols. 94-96, pp. 1180-1183, 2011

Online since:

September 2011

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$35.00

[1] LUO Xiaohui, LIN Shaojie, HUANG Xutong, et al. strong corrosion resistance of concrete technology experiment research sulphate in cold region [J] . Guangdong Wa-ter Resour Hydropower (in Chinese), 2004(3): 47–49.

[2] M K Lee , B I GBarr. An Overview of the Fatigue Behavior of Plain and Fiber Reinforced Concrete[J ] . Cement & Concrete Composites , 2004 , 26 (4) : 2992305.

[3] Meng Xianhong, Song Yupu. Gray markov chain in the concrete application of fatigue life prediction [J]. Concrete, 2004 (2) : 11-15.

[4] Qiao Hongxia, He Zhongmao, Zhu Yanpeng, et al. high-performance concrete durability of saline soil area [J]. China railway science, 2006, 27 (4) : 32-37.

[5] Zhang Yujiang, Du Qiang. The application of High-performance concrete in Boston east pumping station project[J]. The xinjiang water conservancy, 2005 (3) : 27 to 30.

[6] MA Baoguo, HE Xingyang, SU Ying, et al. Concrete sulfate erosion damage research in salt lake environment[J]. Concrete (in Chinese), 2001(4): 11–15.

[7] Broutman L J and Sahu S. A new theory to predict cumulative fatigue damage in fibre-glass reinforced plastics[C]. Composite Materials: Testing and Design (2nd conference), ASTM STP497, 1972: 170-188.

DOI: 10.1520/stp27746s

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