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Title |
Fracture Characteristics of Ductile Fiber Reinforced Cement based Composites by Collision of Steel Projectile
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Authors |
남정수(Jeong-Soo Nam) ; 김규용(Gyu-Yong Kim) ; 김홍섭(Hong-Seop Kim) ; 김정현(Jung-Hyun Kim) ; 한상휴(Sang-Hyu Han) |
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DOI |
http://dx.doi.org/10.11112/jksmi.2015.19.4.092 |
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Keywords |
파괴특성 ; 고인성 섬유보강 시멘트복합체 ; 비상체 ; 고속충돌 Fracture characteristics ; Ductile fiber reinforced cement based composites ; Steel projectile ; High velocity impact |
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Abstract |
The aim of this study is to evaluate the fracture characteristics of ductile fiber reinforced cement based composites with 1.5 volume ratio of polyvinyl alcohol and steel fiber by high velocity impact of steel projectile. We used gunpowder impact facility to evaluate the fracture characteristics of ductile fiber reinforced cement based composites by collision of steel projectile, and the impact velocity was from about 150 to 1,000m/s. The results of evaluation on the fracture characteristics of ductile fiber reinforced cement based composites were penetration grade, which is the kinetic energy more than three times of no-fiber reinforced specimen (Plain). In addition, ductile fiber reinforced cement based composites did not occurred critical damage other than the debris. In the case of mass loss, Plain specimen was proportional to kinetic energy of steel projectile, while ductile fiber reinforced cement based composites was not significantly affected by kinetic energy of steel projectile. In particular, this tendency had a close relationship with the fracture characteristics of back side of specimens, and the scabbing inhibiting efficiency of PVA specimen was higher than S specimen. In the results of verifying relationship between front and back side calculated by local damage, scabbing occurred at the region close to the back side in the ductile fiber reinforced cement based composites unlike Plain specimen. Thus, in this study, we examined principal fracture behaviors of ductile fiber reinforced cement based composites under collision of steel projectile, and verified that impact resistance performance was improved as compared to Plain specimen.
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