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9mm 권총탄 위협을 받는 적층구조의 방탄성능 연구 KCI 등재

Study on Bullet-Proof Performance of Multi-Layered Hybrid Armor Against 9mm FMJ Projectile

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한국전산구조공학회 논문집 (Journal of the Computational Structural Engineering Institute of Korea)
한국전산구조공학회 (Computational Structural Engineering Institute of Korea)
초록

In order to prevent the high velocity bullet from penetration, aluminum alloy and RHA(Rolled Homogeneous Armour) steel, which have a high tensile and compressive strength, are usually used as the bullet-proof armor material. Although these materials have a good bullet proof performance, but not an area density which is a weight increasing factor of bullet-proof armor. Therefore, Mg(magnesium) alloy is a promising substitute for the traditional bullet-proof armor material due to the relatively low areal density. The spatial efficiency of Mg alloy, however, is inferior to the traditional material's, which is a volume(thickness) increasing factor of bullet-proof armor. In this study, we select the multi-layered hybrid armor which consist of Ceramic, with a high strength; Mg alloy, with a low areal density; Kevlar, with a high tensile strength-to-weight ratio; in order to make up for the poor spatial efficiency of Mg alloy. By predicting V50 of the multi-layered armor against 9mm FMJ(Full Metal Jarket). we show that the multi-layered armor have the capability in improving bullet-proof performance in the respect of the areal density, but also the spatial efficiency.

저자
  • 이종구(서울대학교 기계항공공학부) | Jong-Gu Lee
  • 김시호(공군군수사령부) | Siho Kim
  • 김건인(육군사관학교 무기기계공학과) | Gunin Kim
  • 조맹효(서울대학교 기계항공공학부) | Maenghyo Cho Corresponding author