Steel-tube-confined concrete(STCC)targets are provided with excellent anti-penetration performance over semi-infinite concrete(SIC)targets since the steel tube imposes passive restraint on the in-filled concrete during the penetration process.Grid STCC system with square steel tubes is a potential solu-tion to protective structures.In this paper,experiments of 9-cell grid STCC targets penetrated by 12.7 mm Armor Piercing Projectile(APP)were performed.The influence of side length and thickness of steel tube,steel ratio and impact velocity on anti-penetration performance were taken into account.Additionally,single-cell square STCC targets were also designed and tested for comparison with the 9-cell grid STCC targets.Damage modes and parameters of the tested targets were measured and discussed.Moreover,the stiffness of radial confinement of grid STCC targets is achieved according to the elastic solution of infinite cylindrical shell in Winkler medium.Furthermore,the penetration resistance and depth of penetration(DOP)for grid STCC targets are obtained on the basis of the dynamic finite spherical cavity-expansion(FSCE)models including radial confinement effect.It is shown that the 9-cell grid STCC targets with optimal dimension match of thickness and side length of steel tube can reduce the DOP by about 17％and 23％in comparison with the SIC targets and single-cell square STCC targets,respectively,due to both the confinement of square steel tube to concrete in the impacted cell and the additional confine-ment of the surrounding cells to the impacted cell;the penetration resistance and DOP of the grid and cellular STCC targets with similar steel ratio is close,and thus the grid STCC targets with simpler manufacturing process and excellent in-plane expandability are preferred in engineering practice;moreover,the predicted results of DOP model based on the FSCE models agree well with the tested results with the maximum disparity less than 12％and the proposed model is more applicable to the grid and cellular STCC targets with high radial confinement.

Dian-yi Song;Qing-hua Tan;Chao-mei Meng;Yi-min Huang;Yang-yueye Cao;Zhi-gang Jiang

Undergraduate School,National University of Defense Technology,Changsha,410072,PR China;College of Aerospace Science and Engineering,National University of Defense Technology,Changsha,410073,PR China;College of Aerospace Engineering,Air Force Engineering University,Xi'an,710038,PR China

防务技术

[1]Dian-yi Song;Qing-hua Tan;Chao-mei Meng;Yi-min Huang;Yang-yueye Cao;Zhi-gang Jiang-.Resistance of grid steel-tube-confined concrete targets against projectile impact:Experimental investigation and analytical engineering model)[J].防务技术,2022(09):1622-1642

Armor,Piercing,Projectile,FSCE,expandability

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