• Structural Engineering and Mechanics
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• 제42권2호
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• pp.153-174
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• 2012

Micromechanical facture models can be used to predict ductile fracture in steel structures. In order to calibrate the parameters in the micromechanical models for the largely used Q345 steel in China, uniaxial tensile tests, smooth notched tensile tests, cyclic notched bar tests, scanning electron microscope tests and finite element analyses were conducted in this paper. The test specimens were made from base metal, deposit metal and heat affected zone of Q345 steel to investigate crack initiation in welded steel connections. The calibrated parameters for the three different locations of Q345 steel were compared with that of the other seven varieties of structural steels. It indicates that the toughness index parameters in the stress modified critical strain (SMCS) model and the void growth model (VGM) are connected with ductility of the material but have no correlation with the yield strength, ultimate strength or the ratio of ultimate strength to yield strength. While the damage degraded parameters in the degraded significant plastic strain (DSPS) model and the cyclic void growth model (CVGM) and the characteristic length parameter are irrelevant with any properties of the material. The results of this paper can be applied to predict ductile fracture in welded steel connections.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2008년도 춘계 학술발표회 제20권1호
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• pp.913-916
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• 2008

변형경화형 시멘트 복합체(SHCC)의 직접인장거동은 주로 물시멘트비, 섬유와 매트릭스 간의 상호작용, 부착강도, 섬유 혼입율 등에 의해 영향을 받는다. 본 논문은 PET 및 PVA섬유를 사용한 SHCC의 직접인장거동에서 섬유의 형상비의 영향을 평가하기 위해 PET섬유의 형상비(Aspect ratio, ${\ell}/d_f$ : 150, 300, 600)를 변수로 선정하였다. 동일한 배합조건에서 PET1.5+PVA0.5-300 및 PET1.5+PVA0.5-600시험체는 PET1.5+PVA0.5-150에 비해 우수한 유사변형경화특성과 미세균열분산 특성을 보였으며, PET1.5+PVA0.5-300 및 PET1.5+PVA0.5-600 시험체는 최대인장응력시 각각 0.5, 2.0%의 변형율을 나타내었다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2004년도 춘계 학술발표회 제16권1호
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• pp.276-279
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• 2004

Concrete is one of the principal materials for the structure and it is widely used all over the world. but it shows extremely brittle failure under bending and tensile load. Recently to improve such a poor property. High Performance Fiber Reinforced Cementitious Composites (HPFRCC) have been developed. and it are defined by an ultimate strength higher than their first cracking strength and the formation of multiple cracking during the inelastic deformation process. This study is to develop the hybrid HPFRCC with high ductility and strain capacity in bending and tensile load. and the three-point bending test on hybrid HPRFCC reinforced with micro and macro fibers is carried out in this paper. As the results of the bending tests. hybrid HPFRCCs reinforced with PVA40+SF and PVA100+PVA660 showed the high ultimate bending stress, multiple cracks and displacement hardening under bending load.

• 소성∙가공
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• 제17권6호
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• pp.420-428
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• 2008

The effect of loading path changes on the strain and mechanical properties of a commercial pure aluminum was studied using flat rolling and groove rolling. Material during flat rolling undergoes a continuous monotonic compressive loading, while one during groove rolling experiences a series of cross compressive loading. Four-pass flat rolling and groove rolling experiment are designed such that the aluminum undergoes the same amount of the strain at each pass. The rolling experiment was performed at room temperatures. Specimens for tensile test are fabricated from the plate and bar rolled. In addition, the strain distribution for the plate and bar cold rolled specimens is also calculated by finite element method. The results reveal that differences of loading path attributed by monotonic loading(flat rolling) and cross loading(groove rolling) significantly influence the mechanical properties such as yield stress, ultimate tensile stress, strain hardening and elongation. It is clear that the different loading path can give raise to change the deformation history, although it is deformed with same amount of strain for same material.

• 한국원자력학회:학술대회논문집
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• 한국원자력학회 1996년도 춘계학술발표회논문집(4)
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• pp.182-187
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• 1996

Deformation characteristics of miniature plate tensile specimens have been studied to develop the thickness requirement and a correlation to estimate the mechanical properties of bulk material from miniature specimen data. The material used was a SA 508 C1.3 reactor pressure vessel steel and the thicknesses of miniature tensile specimens varied from ().12 m to 2 mm. The effects of thickness on the tensile deformation properties such as strength, ductility, and necking characteristics were analyzed. The yield and ultimate tensile strengths were independent of specimen thickness when the thickness was larger than about 0.2 mm. The uniform and total elongations decreased as the specimen thickness decreased. It was also observed that the uniform strain component in the width direction decreased with decrease in the specimen thickness, however, that in the thickness direction was rather constant in total thickness range studied. Based on this observation and a relationship between the necking angle and the ratio between strain components, a correlation between the uniform elongations of miniature specimen and standard specimen was derived. The uniform elongations calculated by this new correlation agreed well with the measured values.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2006년도 춘계학술발표회 논문집(I)
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• pp.50-53
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• 2006

An experimental investigation on the behavior of reinforced concrete coupling beams is presented. The test variables are the span-to-depth ratio, the ratio of flexural reinforcement and the ratio of shear rebar. The distribution of arch action and truss action which compose the mechanism of shear resistance is discussed. This study proposes the deformation model for reinforced concrete coupling beams considering the bond slip of flexural reinforcement. The yielding of flexural reinforcements determines yielding states and the ultimate states of reinforced concrete coupling beam are defined as the ultimate compressive strain of struts and the degradation of compressive strength due to principal tensile strain of struts. It is expected that this model can be applied to displacement-based design methods.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 1996년도 춘계학술대회 논문집
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• pp.220-223
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• 1996

Mechanical properties of Plasma-Enhanced Chemical Vapor Deposited (PECVD) silicon nitride thin film was studied to determine the feasibility of the film as a passivation layer over the aluminum bonding areas of integrated circuit chips. Ultimate strain of the films in thicknesses of about 5 k${\AA}$ was measured using four-point bending method. The ultimate strain of these films was constant at about 0.2% regardless of residual stress. Intrinsic and residual stresses of these films were measured and compared with thermal shock and cycling test results. Comparison of the results showed that more tensile films were more susceptible to crack- induced failure.

• 한국지진공학회:학술대회논문집
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• 한국지진공학회 2006년도 학술발표회 논문집
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• pp.233-240
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• 2006

An experimental investigation on the behavior of reinforced concrete coupling beams is presented. The test variables are the span-to-depth ratio, the ratio of flexural reinforcement and the ratio of shear rebar. The distribution of arch action and truss action which compose the mechanism of shear resistance is discussed. This study proposes the deformation model for reinforced concrete coupling beams considering the bond slip of flexural reinforcement. The yielding of flexural reinforcements determines yielding states and the ultimate states of reinforced concrete coupling beam are defined as the ultimate compressive strain of struts and the degradation of compressive strength due to principal tensile strain of struts. It is expected that this model can be applied to displacement-based design methods.

• 대한토목학회논문집
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• 제37권2호
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• pp.277-287
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• 2017

이 연구는 한계상태설계법을 기반으로 하는 도로교설계기준에 의해 철근콘크리트 휨부재 설계 시 적용하는 균형철근비와 최대 철근량에 대한 규정을 검토한 것이다. 현행 도로교설계기준(한계상태설계법)에서는 휨부재 철근량 산정의 기준이 되는 균형철근비에 대한 명시적 규정이 없고, 휨모멘트 재분배 효과를 반영한 최대 중립축 깊이 및 콘크리트 단면적의 0.04배로서 최대 철근량을 산정한다. 그런데, 최대 중립축 깊이 규정에 의하면 최대 철근량이 적게 산정되어 단면을 크게 하여야 하며, 콘크리트 단면적의 0.04배라는 한계값이 적용될 경우에는 인장 철근의 변형률이 항복 변형률의 2배 이하로 되어 충분한 연성거동을 보장할 수 없는 문제점이 있다. 이 연구에서는 연성거동을 확보할 수 있는 휨부재 설계를 위한 사용 철근량 산정의 기준이 되는 균형철근비를 극한한계상태 검증 규정 및 재료 특성과 콘크리트 기준압축강도에 따른 극한한계변형률을 도입하여 설계 실무에 적용할 수 있도록 간편한 식으로 유도하였다. 그리고, 설계된 휨부재가 충분한 연성이 확보되도록 인장철근의 최소허용변형률을 항복변형률의 2배로 가정하고 철근의 기준항복강도 및 콘크리트 기준압축강도에 상관없이 만족할 수 있도록 최대 중립축 깊이 비 보정계수를 도입하여 수정하고, 이로부터 최대철근비를 산정할 수 있도록 하였다.

• Elastomers and Composites
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• 제39권2호
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• pp.142-152
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• 2004

서로 다른 두 종류의 폴리스타일렌(PS)을 injection 기계를 이용하여 인장 시편을 만들고, 온도와 인장 속도에 따른 crazing 거동 특성을 연구하기 위하여 다양한 시험을 하였다. 기계적물성은 craze 형성뿐만 아니라 다양한 시험 변수에 의해 영향을 받으며, brittle-ductile transition 이하의 온도에서의 인장 응력 및 최대 신율은 분자량, 인장 속도의 증가 및 온도의 감소에 따라 증가하며 craze의 수와 평균 길이 또한 증가한다. Crazing 응력도 동일한 형태로 증가함을 보여준다. 그러나, 이러한 특성은 인장 강도에 미치는 영향과 비교했을 때 보다 의존도는 상대적으로 낮다. Craze 형성과 성장에 필요한 시간으로 설명할 수 있는 crazing 응력과 인장 응력간의 차이는 분자량, 인장 속도에 따라 비례적으로 그리고, 온도가 감소함에 따라 증가함을 보여 준다. Crazing 은 ${\beta}$-relaxation 온도 근처에서 활성화된다. 이 온도에서는 crazing 응력이 급격하게 감소함을 나타낸다. 인장 평가시 craze 밀도가 적용된 응력에 따라 기하 급수적으로 증가되는데, 개시 단계에서는 craze는 서서히 형성되며, 일단 일정한 수만큼의 craze가 형성이 되면 craze 밀도가 급속도로 증가했다.