• Composites Research
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• 제18권4호
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• pp.44-51
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• 2005

본 논문에서는 3차원 직교 직물 복합재료의 구성성분인 얀(Yarn)의 기하학적인 형상을 고려하여 직접수치모사(DNS) 모델을 개발하고 이를 이용하여 직교 직물 복합재료 평판의 저속충격 현상을 모사하였다. 미시구조를 보다 상세하고 정확하게 고려하기 위하여 토우 간격과 굴곡 등을 고려한 단위 구조를 제시하고 이를 이용하여 DNS 기반의 평판모델을 구현하였다. 정적 가상 실험을 통하여 얻은 DNS 모델의 거시적 등가 물성치를 바탕으로 한 거시기계학적 해석과의 비교하였고, DNS 모델을 이용하여 기존의 거시기계학적 모델에서 구현이 어려운 기하학적인 형상 차이에 따른 저속충격 현상의 영향을 고찰하였다. 그리고 보다 실제 실험에 가까운 가상 시편의 크기를 고려하고 해석의 효율성을 높이기 위하여 DNS개념에 기반한 멀티스케일 모델을 개발하여 거시/미시 해석 결과 특성을 함께 고찰하였다.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2002년도 추계학술발표대회 논문집
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• pp.170-174
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• 2002

In this study, the material characterization and the dynamic behavior of 3D orthogonal woven composite materials has been studied under transverse central low-velocity impact condition by means of the micromechanical model using finite elements. To build up the micromechanical model considering tow spacing and waviness, an accurate unit structure is stacked in x-y-z direction repeatedly. First, the mechanical properties of 3D orthogonal woven composites are obtained by means of virtual experiment using full scale Finite Element Analysis based on the DNS concepts, and the computed elastic properties are validated by comparison to available experimental results[9]. Second, using the implementation of this validated micromechanical model, 3D transient finite-element analysis is performed considering contact and impact, and the impact behavior of 3D orthogonal woven composite is investigated. A comparison study will be carried out in terms of energy absorption capabilities.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2005년도 추계학술발표대회 논문집
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• pp.53-56
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• 2005

In this study, the material characterization and the dynamic behavior of 3D orthogonal woven composite materials has been studied under transverse central low-velocity impact condition by means of the micromechanical model using finite elements. To build up the micromechanical model considering tow spacing and waviness, an accurate unit structure is stacked in x-y-z direction repeatedly. First, the mechanical properties of 3D orthogonal woven composites arc obtained by means of virtual experiment using full scale Finite Element Analysis based on the DNS concepts, and the computed elastic properties arc validated by comparison to available experimental results. Second, using the implementation of this validated micromechanical model, 3D transient finite-clement analysis is performed considering contact and impact, and the impact behavior of 3D orthogonal woven composite is investigated. A comparison study with the homogenized model will be carried out in terms of global and local behaviors.