Finite Element Analysis of Dynamic Responses of Plain Concrete Pavements Under Strong Impact Loading

Xiao He Zhou; Da Wei Ma; Gui Gao Le

doi:10.4028/www.scientific.net/AMR.838-841.23

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 838-841Finite Element Analysis of Dynamic Responses of...

Finite Element Analysis of Dynamic Responses of Plain Concrete Pavements Under Strong Impact Loading

Abstract:

Plain concrete pavements under heavy impact loading will induce flexure, crack and direct shear failure. To obtain dynamic response and failure mode of plain concrete pavement under heavy impact loading, the concrete brittle crack model is adopted and finite element model of plain concrete pavements is established; the dynamic response and failure mode under heavy impact loading in different loading points and different loading times are studied; the production, stretching and extension of cracking are researched; which is a powerful reference for practical engineering application.

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Periodical:

Advanced Materials Research (Volumes 838-841)

Pages:

23-29

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.838-841.23

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Online since:

November 2013

Authors:

Xiao He Zhou*, Da Wei Ma, Gui Gao Le

Keywords:

Brittle Crack Model, Failure Mode, Finite Element, Heavy Impact Loading, Plain Concrete Pavement

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* - Corresponding Author

References

[1] Chen Li, Fang Qin , et al. Prediction for Reinforced Concrete Under Heavy Impact Load in the ABAQUS Brittle Crack Model [R]. Protecting Against and Mitigating Earthquake Disaster Engineering Academic Seminar. 2007, 95-100.

Google Scholar

[2] Liu Wen Jing, Yao Chan Juan, et al. Damage Analysis for Reinforced Concrete Pavement Under Impact Load. [R]. China Highway Society Environment and the Sustainable Development Branch. (2010).

Google Scholar

[3] Wang Zheng, Ni yu shan, et al. Recent Advances of Dynamic Mechanical Behavior of Concrete Under Impact Loading. [J], Explosion and Shock Wave, 2005, 25(6).

Google Scholar

[4] Chen Li, Fang Qin, et al. Finite Element Analysis of Failure Modes R/C Beams Subjected to Severe Dynamic Loads. [J], Journal of BEIJING University of Technology. 2008, 34(6).

Google Scholar

[5] Cheng Jian, Xu Zhi Hong, et al. Research of Design Parameters of Cement-stabilized Macadam. [J], Journal of Building Material. 2008, 11(6).

Google Scholar

[6] Liu Zhi Jun, Liu Chun Rong, , et al. Experimental Study on Reasonable Evaluation of Rebound Modulus of Subgrade. [J], Journal of Chongqing Jiaotong University. 2006, 25(3).

Google Scholar

[7] Liang Xing Wen, Ye Yan Xia, et al. Nonlinear Analysis for Concrete Construction. [M]. Bei Jing: China Construction Industry Press. (2007).

Google Scholar

[8] Jiang Jian Jing, Lu Xin Zheng, et al. Finite Element Analysis for Concrete Construction. [M]. Bei Jing: Tsing Hua Press. (2004).

Google Scholar

[9] Wang Jin Chang, Chen Ye Kai, et al. Application of ABAQUS for Civil Engineering. [M]. Zhe Jiang: zheng jiang University. (2006).

Google Scholar