Further study on effect of concrete defense layer on evolution mechanism of stress-waves |
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Authors: | Z.L. Wang Y.C. Li |
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Affiliation: | aDepartment of Modern Mechanics, University of Science and Technology of China, Anhui province, Hefei 230027, China |
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Abstract: | The Taylor–Chen–Kuszmaul model, which regards the dynamic fracture process of brittle materials as a continuous accrual of damage, has been successfully applied to simulate rock blast and concrete penetration. This paper employs the TCK damage model to numerical study on the effect of perforated concrete defense layer on evolution mechanism of blast-induced stress waves. The numerical results reveal that the tensile damage near free boundary should be noteworthy under a higher blast loading, and the peak values of hydrostatic pressure beneath an artificial cavity are largely reduced. The effects of cavity dimensions and position on wave evolution and reduction are detailedly explored. One empirical formula is proposed to relate the decay factor of peak hydrostatic pressure to the dimensions and relative position of cavity. |
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Keywords: | Defense system Blast loading Rectangular cavity Tensile damage Attenuation Empirical formula |
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