• 콘크리트학회논문집
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• 제18권3호
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• pp.361-370
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• 2006

본 연구에서는 국내외 강섬유보강 콘크리트보의 실험값 및 이론식을 분석하여 강섬유의 보강효과 및 부재의 역학적 거동을 규명하였고, 기존의 휨강도식보다 더 정확하고 합리적인 휨강도식을 제안하였다. 제안된 휨강도식은 실험값과 좋은 일치를 보여주었고, 강섬유보강 콘크리트보의 휨강도식은 강섬유보강효과뿐만 아니라 철근의 변형률 경화효과도 함께 고려하는 것이 적절함을 알 수 있었다.

• Computers and Concrete
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• 제29권1호
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• pp.15-29
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• 2022

Concrete-filled steel tubes (CFSTs) are increasingly used as composite sections in structures owing to their excellent load bearing capacity. Therefore, predicting the mechanical behavior of CFST sections under axial compression loading is vital for design purposes. This paper presents the first study on the nonlinear analysis of heated CFSTs with high-strength concrete core containing steel fiber and waste tire rubber under axial compression loading. CFSTs had steel fibers with 0, 1, and 1.5% volume fractions and 0, 5, and 10% rubber particles as sand alternative material. They were subjected to 20, 250, 500, and 750℃ temperatures. Using flow rule and analytical analysis, a model is developed to predict the load bearing capacity of steel tube, and hoop strain-axial strain relationship, and axial stress-volumetric strain relationship of CFSTs. An elastic-plastic analysis method is applied to determine the axial and hoop stresses of the steel tube, considering elastic, yield, and strain hardening stages of steel in its stress-strain curve. The axial stress in the concrete core is determined as the difference between the total experimental axial stress and the axial stress of steel tube obtained from modeling. The results show that steel tube in CFSTs under 750℃ exhibits a higher load bearing contribution compared to those under 20, 250, and 500℃. It is also found that the ratio of load bearing capacity of steel tube at peak point to the load bearing capacity of CFST at peak load is noticeable such that this ratio is in the ranges of 0.21-0.33 and 0.31-0.38 for the CFST specimens with a steel tube thickness of 2 and 3.5 mm, respectively. In addition, after the steel tube yielding, the load bearing capacity of the tube decreases due to the reduction of its axial stiffness and the increase of hoop strain rate, which is in the range of about 20 to 40%.

• 분석과학
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• 제9권2호
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• pp.179-191
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• 1996

초내열 718 합금의 고온 변형 거동을 이해하기 위하여 rotating grade의 718 합금을 이용하여 온도 $927{\sim}1066^{\circ}C$, 변형속도 $5{\times}10^{-4}{\sim}5{\times}10^0sec^{-1}$ 범위에서 진변형량 0.7까지 압축실험을 수행하였다. 최대 유동 응력은 변형 속도가 증가하고 시험 온도가 감소함에 따라 증가하였다. 변형 속도 $5{\times}10^{-1}sec^{-1}$을 제외한 대부분의 설험 조건에서 가공 연화현상이 관찰되었다. 가공 연화는 저온, 고변형 속도에서는 주로 동적 회복 및 변형 쌍정에 의해 일어나는 반면 고온, 저변형 속도 조건에서는 동적 재결정에 의해 발생하였으며 $5{\times}10^{-1}sec^{-1}$의 변형 속도 조건에서는 동적 재결정된 결정 입자들의 재가공 경화에 의해 가동 경화현상이 나타났다. 변형 속도 감도(m)는 변형 속도가 낮은 경우에는 0.3 정도로서 주로 동적 재결정에 의해 변형 거동이 나타남을 반영하였으며 고변형 속도에서는 0.1 정도로서 동적 회복과 변형 쌍정의 발생으로 718 합금의 변형이 이루어짐을 알 수 있었다.

• 콘크리트학회논문집
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• 제17권5호
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• pp.709-716
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• 2005

이 연구는 국내에서 상용 중인 재료를 이용하여 고인성 섬유복합 모르타르를 개발하고자 함에 목적이 있으며, 고인성 섬유복합 모르타르를 개발하기 위해서는 모르타르 매트릭스의 파괴역학(fracture mechanics)적 특성과 섬유-모르타르 경계 면의 마이크로역학(micromechanics)적 특성을 파악하여야 한다. 특히 시멘트계 재료(cementitious materials)의 역학적 특성에 가장 큰 영향을 미치는 물-시멘트비(water cement ratio)에 대한 연구에 초점을 맞추었으며, 3가지의 물-시멘트비에 대하여 섬유의 인발실험(fiber pullout test)과 모르타르의 쐐기쪼갬실험(wedge splitting test)을 수행하였고 이를 통하여 모르타르 매트릭스와 섬유-매트릭스 경계면(interface)의 역학적인 특성을 파악하였다. 이러한 연구에 의하여 결정된 섬유-매트릭스 경계면의 마이크로역학적 특성과 모르타르의 역학적 특성을 이용하여 물-시멘트비 범위 및 재료의 기본 배합을 제시하였고 또한 마이크로역학과 안정상태 균열이론(steady-state cracking theory)을 배경으로 하여 1축인장 하에서 인장변형률 경화거동을 나타내는 고인성 섬유복합 모르타르를 개발하였다. 개발된 재료는 1축인장 하에서 변형률 경화거동을 나타내었으며, 변형능력은 최대 2.2% 이었다. 이와 같은 높은 변형 능력은 일반 콘크리트(또는 모르타르)의 약 100배에 해당된다. 또한 압축하에서는 압축강도 이후 응력-변형률 곡선이 완만하게 감소하는 연성파괴의 형태를 나타내었으며 28일의 압축강도는 보통강도 콘크리트의 강도에 해당되는 26MPa, 34MPa인 것으로 측정되었다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2004년도 춘계 학술발표회 제16권1호
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• pp.336-339
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• 2004

This paper presents an experimental investigation examining water-cement ratio effects on fiber-matrix interface properties and on matrix fracture properties, which are used for designing mix proportion suitable for achieving strain-hardening behavior at a composite level. A single fiber pullout test and a wedge splitting test were employed to measure the bond properties in a matrix and the fracture toughness of mortar matrix, respectively. Test results showed that the properties tended to increase with decreasing water-cement ratio. Composite design using these test results will be discussed in the follow-up paper.

• Structural Engineering and Mechanics
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• 제45권5호
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• pp.655-676
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• 2013

In this study, strength reduction factors and inelastic displacement ratios are investigated for SDOF systems with period range of 0.1-3.0 s considering soil structure interaction for earthquake motions recorded on soft soil. The effect of stiffness degradation on strength reduction factors and inelastic displacement ratios is investigated. The modified-Clough model is used to represent structures that exhibit significant stiffness degradation when subjected to reverse cyclic loading and the elastoplastic model is used to represent non-degrading structures. The effect of negative strain - hardening on the inelastic displacement and strength of structures is also investigated. Soil structure interacting systems are modeled and analyzed with effective period, effective damping and effective ductility values differing from fixed-base case. For inelastic time history analyses, Newmark method for step by step time integration was adapted in an in-house computer program. New equations are proposed for strength reduction factor and inelastic displacement ratio of interacting system as a function of structural period($\tilde{T}$, T) ductility (${\mu}$) and period lengthening ratio ($\tilde{T}$/T).

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2004년도 춘계 학술발표회 제16권1호
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• pp.18-21
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• 2004

This paper discusses how steel cord and PVA hybrid fibers enhance the performance of high performance fiber reinforced cementitious composites (HPRFCC) in terms of elastic limit, strain hardening response and post peak of the composites. The effect of microfiber(PVA) blending ratio is presented. For this purpose flexure, direct tension and split tension tests were conducted. It was found that HFRCC specimen shows multiple cracking in the area subjected to the greatest bending tensile stress. Uniaxial tensile test confirms the range of tensile strain capacity from 0.5 to $1.5\%$ when hybrid fiber is used. The cyclic loading test results identified a unique unloading and reloading response for this ductile composite. Cyclic loading in tension appears not to affect the tensile response of the material if the uniaxial compressive strength during loading is not exceeded.

• 대한용접접합학회:학술대회논문집
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• 대한용접접합학회 2003년도 춘계학술발표대회 개요집
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• pp.260-262
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• 2003

In this study, high temperature tensile properties of high tensile strength steels(POSTEN60, POSTEN80) were investigated by elevated temperature tensile test. According toe the results, high temperature tensile strength of POSTEN60 deteriorated slowly to 100$^{\circ}C$. As the temperature went up the tensile strength became better because of blue shortness and it deteriorated radically after reached to the maximum value around 300$^{\circ}C$. For the POSTEN80, high temperature tensile strength deteriorated slowly to 200$^{\circ}C$.As the temperature went up the tensile strength became better and it deteriorated slowly to 600$^{\circ}C$ after reached to the maximum value around 300$^{\circ}C$. Strain of high tensile strength steels at the elevated temperature increased radically after the mercury rose to 600$^{\circ}C$. The strain hardening ratio of POSTEN60 was larger then that of POSTEN80 at the elevated temperature as in the case at the room temperature and it became smaller radically after the mercury rose to 400$^{\circ}C$.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2004년도 추계 학술발표회 제16권2호
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• pp.825-828
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• 2004

The objective of this study is to examine mechanical properties of ductile fiber-reinforced mortar designed based on micromechanics. This mortar was produced by employing raw materials commercially available in Korea. To verify property level of this material in uniaxial tension, a series of direct tensile tests were performed with varying water cement ratio. In addition to this, flexural tests as well as compressive tests were carried out. Experiments revealed that the fiber reinforced mortar exhibited high ductility represented by strain hardening behavior in uniaxial tension. Significant enhancements of ductility, in terms of strain at peak stress and post-peak behavior, were also observed during the tests in compression and in bending.

• Macromolecular Research
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• 제10권6호
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• pp.365-368
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• 2002

Thermoplastic polyurethanes (TPUs) with different hard segment length has been prepared from a fixed molar ratio of poly(tetramethylene ether glycol), 4,4'-diphenylmethane diisocyanate, and 1,4-butanediol by different polymerization procedures. Results reveal that the on-set temperature of endotherms ( $T_{cc}$ ) due to the crystallization of hard segments by cooling the TPUs from melt and the peak temperature of endotherms due to the melting of hard segments ( $T_{mh}$ ) by heating the TPUs increased and levelled off with increasing the hard segment length of TPUs. It has also been observed that soft segment glass transition temperature ( $T_{gs}$ ) of TPU decreased slightly with increasing the hard segment length, which explains less mixing of soft segments and hard segments. In tensile measurement of TPUs, strain hardening is observed with increasing the hard segment length, which is attributed to the strain induced crystallization of soft segments.