• 콘크리트학회논문집
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• 제16권3호
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• pp.397-406
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• 2004

최근 개발된 3차원 콘크리트 구성모델을 사용하여 구속을 받는 콘크리트와 철근콘크리트 기둥의 해석을 수행하였다. 편차응력과 체적응력 간의 상호작용이 포함되어있고, 비례 및 비례하지 않는 하중을 받는 경우에도 적용 가능한 아탄성 직교 콘크리트 구성모델을 변형률 제어 모델로 전산화하였다. 유한요소 전산화 과정에서 손상균열모델을 사용하였고, 균열은 주변형률 방향에 따라 회전 가능한 것으로 모델링하였다. 콘크리트 구성모델을 구속을 받는 콘크리트 공시체의 실험결과 그리고 캘리포니아 대학(샌디에고)에서 수행된 3개의 철근콘크리트 기둥의 실험결과와 비교하였다. 이를 통하여 비선형 콘크리트 구성모델에 근거한 유한요소해석 결과가 실험에서 관찰된 주요한 특징들을 잘 예측하고 있음을 보여주었다.

• Computers and Concrete
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• 제5권3호
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• pp.195-216
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• 2008

This paper presents a new hypoelasticity model which was implemented in a nonlinear finite element formulation to analyze reinforced concrete (RC) structures. The model includes a new hypoelasticity constitutive relationship utilizing the rotation of material axis through successive iterations. The model can account for high nonlinearity of the stress-strain behavior of the concrete in the pre-peak regime, the softening behavior of the concrete in the post-peak regime and the irrecoverable volume dilatation at high levels of compressive load. This research introduces the modified version of the common application orthotropic stress-strain relation developed by Darwin and Pecknold. It is endeavored not to violate the principal of "simplicity" by improvement of the "capability" The results of analyses of experimental reinforced concrete walls are presented to confirm the abilities of the proposed relationships.

• KCI Concrete Journal
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• 제13권1호
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• pp.19-25
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• 2001

Based on the orthotropic hypoelasticity formulation, a constitutive material model of concrete taking account of triaxial stress state is presented. In this model, the ultimate strength surface of concrete in triaxial stress space is described by the Hsieh's four-parameter surface. On the other hand, the different ultimate strength surface of concrete in strain space is proposed in order to account for increasing ductility in high confinement pressure. Compressive ascending and descending behavior of concrete is considered. Concrete cracking behavior is considered as a smeared crack model, and after cracking, the tensile strain-softening behavior and the shear mechanism of cracked concrete are considered. The proposed constitutive model of concrete is compared with some results obtained from tests under the states of uniaxial, biaxial, and triaxial stresses. In triaxial compressive tests, the peak compressive stress from the predicted results agrees well with the experimental results, and ductility response under high confining pressure matches well the experimental result. The reinforcing bars embedded in concrete are considered as an isoparametric line element which could be easily incorporated into the isoparametric solid element of concrete, and the average stress - average strain relationship of the bar embedded in concrete is considered. From numerical examples for a reinforced concrete simple beam and a structural beam type member, the stress state of concrete in the vicinity of talc critical region is investigated.

• Structural Engineering and Mechanics
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• 제13권3호
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• pp.313-328
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• 2002

Based on the orthotropic hypoelasticity formulation, a triaxial constitutive model of concrete is proposed. To account for increasing ductility in high confinement of concrete, the ductility enhancement is considered using so called the strain enhancement factor. It is also developed a three-dimensional finite element model for reinforced concrete structural members based on the proposed constitutive law of concrete with the smeared crack approach. The concrete confinement effects due to the beam-column joint are investigated through numerical examples for simple beam and structural beam member. Concrete at compression fibers in the vicinity of beam-column joint behaves dominant not only by the uniaxial compressive state but also by the biaxial and triaxial compressive states. For the reason of the severe confinement of concrete in the beam-column joint, the flexural critical cross-section is observed at a small distance away from the beam-column joint. These observations should be utilized for the economic design when the concrete structural members are subjected to high confinement due to the influence of beam-column joint.

• 콘크리트학회논문집
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• 제18권5호
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• pp.677-685
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• 2006

수화열 균열 저감 기법 중 내부구속이 지배적인 구조물에서 단면의 내외부 온도차를 관리하는 방식은 그 활용도가 매우 높다. 그러나 현 국내 기준의 내외부 온도차와 온도균열지수 관계식은 균열 발생 가능성을 과대평가하는 경향이 있다. 본 연구에서는 그러한 평가식이 유도된 배경을 단계별로 추적하여 타당성을 검증해 보았으며, 그 결과 재령에 따른 탄성계수의 변동성이 고려되지 않은 단순한 재료모델을 사용한 경우에 해당됨을 밝혔다. 개선된 재료모델로 증분형태 구성방정식인 hypoelastic 모델을 사용한 결과 온도균열지수가 기존 식보다 증가되었으며, 그 증가량은 다양한 조건들에 의존하는 것으로 나타났다. 본 연구의 분석 결과와 해외사례를 참조하여 평가식의 개선된 형태를 고찰하였으며 또한 평가시 필요한 내외부 온도차를 시공 조건들의 영향을 고려하여 용이하게 추정할 수 있는 식도 제안하였다. 추후 해석 및 실험 자료가 축적되면 구조물과 배합의 주요 특징들을 반영하여 평가식을 세분화하는 것도 바람직하다고 생각된다.