• Title/Summary/Keyword: 하니컴 샌드위치 판넬

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Low Velocity Impact Behavior of Aluminium and Glass-Fiber Honeycomb Structure (알루미늄과 유리섬유 하니컴 구조의 저속 충격 거동)

  • Kim, Jin Woo;Won, Cheon;Lee, Dong Woo;Kim, Byung Sun;Bae, Sung In;Song, Jung Il
    • Composites Research
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    • v.26 no.2
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    • pp.116-122
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    • 2013
  • In this study, impact behavior of aluminium and glass-fiber structure is studied under low impact velocity. Compression test is carried out to investigate the compressive strength of the specimens. The degree of damage is observed using microscopy and compared with the experimental analysis data. The maximum load capacity, impact strength and elastic energy of glass-fiber honeycomb sandwich panel are more than the aluminium honeycomb sandwich panel.

Low-velocity Impact Behavior of Aluminum Honeycomb Sandwich Panel (알루미늄 하니컴 샌드위치 판넬의 저속충격거동)

  • 이현석;배성인;함경춘;한경섭;송정일
    • Proceedings of the Korean Society For Composite Materials Conference
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    • 2001.05a
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    • pp.78-82
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    • 2001
  • Impact behaviors of Aluminum Honeycombs Sandwich Panel(AHSP) by drop weight test were investigated. Two types of specimens with 1/2" and 1/4" cell size were tested by two impactors which are weight of $5.25\textrm{kg}_{\textrm{f}}$ and $11.9\textrm{kg}_{\textrm{f}}$. Parametric studies were achieved including the impactor weight and impact sites which consist face, long-edge, short-edge, and point of the specimen. Face one of impact sites was the strongest and short-edge one of impact sites was the weakest. The damaged area of AHSP was enlarged with the increase of impactor weight that is equal to impact energy. After 3 point bending test, fracture modes of AHSP were analyzed with AE counts. Lower facesheet was fractured in the long-edge direction and then separated between facesheet and core. In the short-edge direction after core wrinkled, lower facesheet tear occurred. Impact behavior by FE analysis were increased localized damage in fast velocity because the faster velocity of the impact was, the smaller the stress of core was. Consequently, impactor weight had an effect on widely damaged area, while the impact velocity was caused on the localized damaged area.aged area.

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Characterization for Applying to Optimized Model of Flatform System Step Parts Material for Low-High Platform Railroad Vehicle (저상고상 철도차량용 승강시스템 스텝 부품 소재의 최적화 모델 적용을 위한 특성 평가)

  • Kwak, Hee-Man;Choi, Jung-Muk;Kim, Hyun-Dong;Park, Min-Heung;Kim, Chul-Su
    • Proceedings of the KSR Conference
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    • 2011.10a
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    • pp.1381-1388
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    • 2011
  • Recently, Because of weight lighting and tighten safety regulations of the railway vehicle railroad weight lighting and safety improvement technology is internationally required. Slide step for moving the passenger to high flatform in the railroad vehicle is recognized of important parts. However, Due to high price and weight, it is limited. In this research, In order to apply for railroad, it was redesigned to optimize part count and reduce the price and weight. By choosing honeycombcore as a part for enduring high weight and weight lighting, We produce honeycombpanel of sandwich structure which a different kind connected by using existing stainless(STS304)steel and thermo plasticity glue. Finally, we can find that honeycombpanel is suitable for weight lighting and high weight. As well as, with test result, we can prove that low-high platform railway system will be optimized, if steps are applied to honeycombpanel.

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