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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1030-1032Study on Failure Mode of Steel Fiber Reinforced...

Study on Failure Mode of Steel Fiber Reinforced High Strength Concrete Wall under Blasting Load

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Abstract:

The dynamic response of the SFRHSC wall under blasting load is simulated and analyzed by establishing the 1/4 wall model with finite element explicit dynamic analysis software ANSYS/ls-dyna. Considering the damage and strain rate effect, the J-H-C model is used as material model, and model parameters are calculated by using the test of literature data. The explosion loaded by CONWEP model and *LOAD_BLAST keyword. Different failure modes of wall under different scaled distances are analyzed, the results show that shear failure will occur when the scaled distance is small, flexure failure will happen when the scaled distance is large, in addition, comparing with normal reinforced concrete, the displacement in the center of the SFRHSC wall is smaller under the same condition, which embodied that the high tensile strength and compressive toughness of SFRHSC are significantly enhanced the anti-explosion ability of the wall. The research results of this article can provide reference for the design of SFRHSC fender wall.

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Periodical:

Advanced Materials Research (Volumes 1030-1032)

Pages:

1014-1018

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1030-1032.1014

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Online since:

September 2014

Authors:

Nan Li, Jun Hai Zhao, Yan Li, Juan Wang

Keywords:

Blast Loading, CONWEP Model, Failure Mode, J-H-C Model, SFRHSC

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] Bong Youl Bahn, Cheng-Tzu Thomas Hsu: ACI Materials Journal, Vol. 95-2 (1998), p.178.

[2] Mangat P. S, Gurusamy K: Materials and structures, Vol. 20-118(1987), p.273.

[3] Sun w, Luo X, Yan H D, et al. In: Proceeding of 2nd Asia-Pacific Specialty Conference on Fiber Reinforced Concrete, Singapore (1999), p.197.

[4] Lok T S, Xiao J R. : Structures and Buildings, Vol. 134-9 (1999), p.319.

[5] U. S. Department of the Army Technical Manual, TM5- 1300. Washington DC(1990).

[6] Yan Shaohua, Qian Qihu, Zhou Zaosheng, et al. Journal of PLA University of Science and Technology, Vol. 1-6 (2000), p.49.

[7] Yan Shaohua, Qian Qihu, Sun Wei, et al. Journal of Southeast University(Natural Science Edition), Vol. 31-2 (2001), p.77.

[8] Xu Jinyu, Chi Weisheng, Shao Shiliang, et al. Engineering Mechanics, Vol. Sup. (2000), p.716.

[9] Jiao Chujie, Sun Wei, Gao Peizheng: Engineering mechanics, Vol. 25-3 (2008), p.158.

[10] Jiao Chujie, Sun Wei, Gao Peizheng, et al. Journal of Chongqing Jianzhu University, Vol. 29-5 (2007), p.168.

[11] Lai, S.H., Chu, H.C., Cheng, D.S. Effect of steel, in: Proceedings of the 8th International Conference on Shock and Impact Loads on Structures (2009).

[12] Ni Jinfeng. Response analysis of single-layer reticulated domes subjected to external blast loading using CONWEP and experimental design [D]. Harbin Institute of Technology Master Dissertation (2012).

[13] LS-DYNA Version 971 Keyword User's Manual [M]. LIVERMORE SOFTWARE TECHNOLOGY CORPORATION (LSTC), USA(2007).

[14] Hopkinson B. British ordnance board minutes, 13565[R]. British Ordnance Office, London, UK(1915).

[15] Holomquist T J, Johnson G R, Cook W H: The 14th International Symposium on Ballistics, American Defense Preparedness Association, USA (1993), p.591.

[16] Zhu Haitang, Gao Danying, Tang Jiyu. et al. Journal of building materials, Vol. 12-3 (2009), p.323.

[17] Yang Meng. Strengthening and toughening mechanism of steel fiber reinforced high-strength concrete and design method based on toughness[D]. Dalian University of Technology Doctoral Dissertation (2006).

[18] Wu Xutao, Li Yao, Li Heping. Chinese Journal of Applied Mechanics, Vol. 27-2 (2010), p.340.

[19] . Zhang Fenghua. Dynamic response analysis of reinforced concrete wall under explosive and impact loads[D]. Chang'an University Master Dissertation, (2007).

[20] Xia Zhicheng, Xu Duo, Wang Jing, et al. Engineering Blasting, Vol. 14-2 (2008), p.8.