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- 주제어 : cyclic constitutive relation (검색결과 4 건)
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Numerical modeling for cyclic crack bridging behavior of fiber reinforced cementitious composites
신경준,이광명,Sung-Pil Chang 국제구조공학회 2008 Structural Engineering and Mechanics, An Int'l Jou Vol.30 No.2
Recently, many researches have been done to examine the behavior of fiber reinforced concrete (FRC) subjected to the static loading. However, a few studies have been devoted to cyclic behaviors of FRC. A main objective of this paper is to investigate the cyclic behavior of FRC through theoretical method. A new cyclic bridging model was proposed for the analysis of fiber reinforced cementitious composites under cyclic loading. In the model, non-uniform degradation of interfacial bonding under cyclic tension was considered. Fatigue test results for FRC were numerically simulated using proposed models and the proposed model is achieving better agreement than the previous model. Consequently, the model can establish a basis for analyzing cyclic behavior of fiber reinforced composites.
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Numerical modeling for cyclic crack bridging behavior of fiber reinforced cementitious composites
Shin, Kyung-Joon,Lee, Kwang-Myong,Chang, Sung-Pil Techno-Press 2008 Structural Engineering and Mechanics, An Int'l Jou Vol.30 No.2
Recently, many researches have been done to examine the behavior of fiber reinforced concrete (FRC) subjected to the static loading. However, a few studies have been devoted to cyclic behaviors of FRC. A main objective of this paper is to investigate the cyclic behavior of FRC through theoretical method. A new cyclic bridging model was proposed for the analysis of fiber reinforced cementitious composites under cyclic loading. In the model, non-uniform degradation of interfacial bonding under cyclic tension was considered. Fatigue test results for FRC were numerically simulated using proposed models and the proposed model is achieving better agreement than the previous model. Consequently, the model can establish a basis for analyzing cyclic behavior of fiber reinforced composites.
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이충원(Chungwon Lee) 한국지반환경공학회 2015 한국지반환경공학회논문집 Vol.16 No.10
불포화토에는 부(-)의 압력인 석션(Suction)이 작용한다. 석션은 입자간 응력을 증가시키며, 이에 따라 토립자 골격의 항복응력 및 소성전단강성을 증대시킨다. 따라서 본 연구에서는 이러한 석션의 효과를 지진 등의 동적 하중조건에서 고려하기 위해 불포화토에 대하여 확장된 반복탄소성구성식으로부터 제1 항복함수 및 제2 항복함수를 고려하여 유도된 응력-변형률 관계를 이용하여 반복삼축시험의 요소 시뮬레이션을 수행하였다. 그 결과 응력경로, 응력-변형률 관계 및 체적변형률-축변형률 관계로부터 요소 시뮬레이션은 반복삼축거동을 양호하게 모사함을 확인하였다. 본 연구결과는 동적 하중이 작용하는 불포화토 거동 예측의 정확도 제고에 기여할 것으로 전망된다. Suction affects the unsaturated soil as the negative pore pressure, and leads to increases of the yield stress and the plastic shear stiffness of the soil skeleton due to the growth in interparticle stress. Hence, in this study, in order to account for these effects of suction under the dynamic loading condition such as the earthquake, the element simulation of the cyclic triaxial test using induced stress-strain relation based on cyclic elasto-plastic constitutive model extended for unsaturated soil considering the 1<SUP>st</SUP> and the 2<SUP>nd</SUP> yield functions was conducted. Through the stress path, stress-strain relation and relation between volumetric strain and axial strain, it was seen in all the cases that the simulation results demonstrated a good agreement with the experimental results. It is expected that the results of this study possibly contribute to the accuracy improvement on the prediction of unsaturated soil behavior under the dynamic loading condition.
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Seismic performance of steel columns corroded in general atmosphere
Youde Wang,Tao Shi,Biao Nie,Hao Wang,Shanhua Xu 국제구조공학회 2021 Steel and Composite Structures, An International J Vol.40 No.2
Steel structures exposed to general atmosphere for a long time are highly susceptible to corrosion damage, which would lead to the degradation of service performance of the components and even structures. This article focuses on the effect of corrosion on the seismic performance of steel column. The accelerated corrosion tests in general atmosphere were conducted on 7 H-shaped steel columns and 20 steel plates. Then the obtained plate specimens were subjected to monotonic tensile tests and cyclic loading tests, and the steel columns were subjected to pseudo-static tests, respectively, to study the effects of corrosion on their mechanical properties and seismic performance. Then, a simplified three-dimensional finite element model (FEM) capable of accurately simulating the hysteretic response of corroded steel columns under low-cycle loading was established. Experimental results indicated that the yield strength, tensile strength, elastic modulus and peak strain of corroded steel plate decreased linearly with the proposed corrosion damage parameter Dn, and the energy dissipations under low-cycle loading were significantly reduced. There is a correlation between the cyclic hardening parameters of corroded steel and the yield-tensile strength difference (SD), and then a simplified formula was proposed. Corrosion could result in the premature entrance of each loading stage of corroded columns and the deterioration of buckling deformation range, bearing capacity and energy dissipation, etc. In addition, a larger axial compression ratio (CR) would further accelerate the failure process of corroded columns. The parametric finite element analysis (FEA) indicated that greater damage was found for steel columns with non-uniform corrosion, and hysteretic performance degraded more significantly when corrosion distributed at flanges or foot zone.
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