• 국제강구조저널
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• 제18권4호
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• pp.1363-1372
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• 2018

Recently, there have been studies about the increasing effect on the local plate buckling strength of flat plates when longitudinally stiffened with closed-section ribs and an approximate solution to quantitatively estimate these effects were suggested for flat plates. Since there are few studies to utilize such increasing effect on curved panels and a proper design method is not proposed, thus, this study aims to numerically evaluate such effect due to the rotational stiffness of closed-section ribs on curved panels and to propose an approximate method for estimating the buckling strength. Three-dimensional finite element models were set up using a general structural analysis program ABAQUS and a series of parametric numerical analyses were conducted in order to examine the variation of buckling stresses along with the rotational stiffness of closed-section ribs. By using a methodology that combine the strength increment factor due to the restraining effect by closed-section ribs and the buckling coefficient of the panel curvature, the approximate solutions for the estimation of buckling strength were suggested. The validity of the proposed methods was verified through a comparative study with the numerical analysis results.

• Nuclear Engineering and Technology
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• 제54권1호
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• pp.357-373
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• 2022

The high-temperature gas-cooled reactor pebble-bed module project is the first commercial Generation-IV NPP(Nuclear Power Plant) in China. A new joint is used for the vertical support of RPV(Reactor Pressure Vessel). The steel corbel is integrally embedded into the reactor-cabin wall through eight asymmetrically arranged pre-stressed high-strength bolts, achieving the different path transmission of shear force and moment. The vertical monotonic loading test of two specimens is conducted. The results show that the failure mode of the joint is bolt fracture. There is no prominent yield stage in the whole loading process. The stress of bolts is linearly distributed along the height of corbel at initial loading. As the load increases, the height of neutral axis of bolts gradually decreases. The upper and lower edges of the wall opening contact the corbel plate to restrict the rotation of the corbel. During the loading, the pre-stress of some bolts decreases. The increase of the pre-stress strength ratio of bolts has no noticeable effect on the structure stiffness, but it reduces the ultimate bearing capacity of the joint. A simplified calculation model for the elastic stage of the joint is established, and the estimation results are in good agreement with the experimental results.

• Design & Manufacturing
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• 제16권4호
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• pp.40-45
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• 2022

The EV electric vehicle market is growing rapidly worldwide. An electric vehicle means a vehicle that uses energy charged through an electricity source as power. The precision of the press is important to mass-produce the drive motor, which is a key component of the electric vehicle. The size of the driving motor is increasing, and The size of the mold is also growing. In this study, the precision of large high-speed presses for mass production of driving motors was measured. A study was conducted on the measurement method of press and the analysis of measurement data. A drive motor is a component that transmits power by converting electrical energy into kinetic energy. EV driven motors have key material properties to improve efficiency. The material properties are the thickness of the material. As a method for improving performance, use a 0.2mm thin steel sheet. Mold is also becoming larger. As the mold grows, the size of the high-speed press for mass production of the driving motor is also increasing. Also, the precision of the press is the most important because it uses a thin iron plate material. So the importance of large press precision is being emphasized. In this study, the effect of large high-speed press structure on precision was verified

• Advances in nano research
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• 제15권2호
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• pp.175-189
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• 2023

The under-evaluation structure includes a functionally graded porous (FGP) core which is confined by two piezoelectric carbon nanotubes reinforced composite (CNTRC) layers. The whole structure rests on the Pasternak foundation. Using quasi-3D hyperbolic shear deformation theory, governing equations of a sandwich plate are driven. Moreover, face sheets are subjected to the electric field and the whole model is under thermal loading. The properties of all layers alter continuously along with thickness direction due to the CNTs and pores distributions. By conducting the current study, the results emerged in detail to assess the effects of different parameters on buckling of structure. As instance, it is revealed that highest and lowest critical buckling load and consequently stiffness, is due to the V-A and A-V CNTs dispersion type, respectively. Furthermore, it is revealed that by porosity coefficient enhancement, critical buckling load and consequently, stiffness reduces dramatically. Current paper results can be used in various high-tech industries as aerospace factories.

• International Journal of Korean Welding Society
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• 제4권1호
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• pp.38-45
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• 2004

A practical method for evaluating the possibility of the occurrence of cracking in actual thick-plate T-joint weldments is presented in this study. Systematic experitrients based on the method of the design of experiment are conducted in order to investigate the crack tendency in relation to typical welding parameters such as diffusible hydrogen, restraint intensity, preheating temperature and so on. The elastic analysis using the fmite element techniques is employed to quantify the restraint intensities of the specimens. The defined restraint intensities are treated in numerical way for the sake of considering the most uncertain factor among some major factors that govern the cracking phenomena due to welding. The critical plane for judgment of the crack occurrence or crack density is presented as a function of typical welding parameters including determined restraint intensities. The results of numerical estimation by the proposed method for the experimental specimens show the usefulness as a practical tool in welding induced crack problem having extensive uncertainties.

• Advances in nano research
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• 제14권5호
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• pp.463-474
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• 2023

The purpose of this paper is to present the analysis of propagating and evanescent waves in functionally graded (FG) nanoplates with the consideration of nonlocal effect. The analytical integration nonlocal stress expansion Legendre polynomial method is proposed to obtain complete dispersion curves in the complex domain. Unlike the traditional Legendre polynomial method that expanded the displacement, the presented polynomial method avoids employing the relationship between local stress and nonlocal stress to construct boundary conditions. In addition, the analytical expressions of numerical integrations are presented to improve the computational efficiency. The nonlocal effect, inhomogeneity of medium and their interactions on wave propagation are studied. It is found that the nonlocal effect and inhomogeneity of medium reduce the frequency bandwidth of complex evanescent Lamb waves, and make complex evanescent Lamb waves have a higher phase velocity at low attenuation. The occurrence of intersections of propagating Lamb wave in the nonlocal homogeneous plate needs to satisfy a smaller Poisson's ratio condition than that in the classical elastic theory. In addition, the inhomogeneity of medium enhances the nonlocal effect. The conclusions obtained can be applied to the design and dynamic response evaluation of composite nanostructures.

• Geomechanics and Engineering
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• 제35권6호
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• pp.637-646
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• 2023

At present, the research on wave propagation in graphene platelet reinforced composite plates focuses on the propagation behavior of bulk waves, in which the effect of boundary condition is ignored, there is no literature report on propagation behaviors of guided waves in graphene platelet reinforced metal foams (GPLRMF) plates. In fact, wave propagation is affected by boundary conditions, so it is necessary to study the propagation characteristics of guided waves. The aim of this paper is to solve this problem. The effective performance of the material was calculated using the mixing law. Equations of motion of GPLRMF plate is derived by using Hamilton's principle. Then, the eigenvalue method is used to obtain the expressions of bending wave, shear wave and longitudinal wave, and the degradation verification is carried out. Finally, the effects of graphene platelets (GPLs) volume fraction, elastic foundation, porosity coefficient, GPLs distribution types and porosity distribution types on the dispersion relations are studied. We find that these factors play an important role in the propagation characteristics and phase velocity of guided waves.

• 한국강구조학회 논문집
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• 제18권4호
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• pp.437-446
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• 2006

철도판형교는 한국철도 교량에서 약 40%를 차지하고 있는 중요교량 형식중의 하나이다. 그러나 판형교의 대표적인 교량받침은선받침으로 거동 및 유지관리에 상당한 문제들을 발생시키고 있다. 이러한 문제를 해결하기 위한 방안연구의 일환으로 본 연구에서는 판형교의 실교량을 선정하여 선받침을 폴리우레탄 디스크 받침으로 교체하였다. 폴리우레탄 디스크 받침은 탄성받침의 일종으로 폴리우레탄 패드를 사용하여 탄성을 구현한다. 철도 판형교에 이와 같이 탄성받침을 설치하는 경우 실교량의 동특성의 변화 및 동적 거동의 변화를 디젤기관차 재하실험 및 운행차량에 의한 거동 계측을 통해서 분석 평가하였다. 탄성받침에 의해서 판형교의 1차모드 고유진동수가 3% 감소하였으며, 2차 및 3차모드의 고유진동수는 7 및 15% 감소하였다. 디스크 받침에 의해서 판형교의 동적 수직 처짐은 증가하였으나, 디스크의 변형을 제거한 교량의 순수 변형에 의한 처짐은 거의 증가하지 않는다. 교축직각방향의 변위는 디스크 받침의 전단핀 역할에 의해서 감소하는 경향을 보였다. 또한, 수평방향의 가속도도 탄성 받침에 의해서 거의 변화가 없었다.

• 한국산학기술학회논문지
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• 제15권6호
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• pp.3448-3454
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• 2014

기존의 구조해석은 탄성해석을 일반적으로 실무에서 주축으로 해왔다. 때문에 보다 정밀한 해석을 위하여 재료와 기하학적인 비선형을 고려한 해석의 필요성이 끊임없이 대두되어 왔다. 따라서 본 연구에서는 간단한 모델을 제작하여 비선형 원리를 적용한 최적화를 수행하여 기존의 구조해석의 경험자들은 누구나 용이하게 해석을 수행할 수 있는 이론과 방법을 제시하는데 있다. 본 연구에서 소개되는 모델은 금형 다이리브에 적용될 수 있도록 전단하중에 대하여 충분한 강도로 Strain, Stress가 적게 발생하게 하여, 초기에는 Strain, Stress가 크기에 맞게 형상을 재구성하고 Hyperstudy와 Abaqus 연동에 의한 비선형으로 해석하고 제품에서 허용되는 최대, 최소 Stress 범위와 최소 Strain을 갖는 조건하에서 일정한 증가치를 만들게 하였다. 실험 모델에서 Plate 두께가 40 Newton의 힘으로 주어질 때 Iteration 처리로 금형 두께에 따른 Stress와 Strain에 대한 금형두께에 적용하고자 했을 때 7~8mm 두께가 최적화라는 결론을 얻을 수 있었다.

• 한국전산구조공학회논문집
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• 제29권3호
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• pp.285-292
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• 2016

본 연구에서는 부유구조물 모델링의 효율성 및 응답의 정확성을 분석하기 위해 유체 영역을 압력으로 정의한 유탄성 해석법에 1차원 보-2차원 유체 결합의 1차원 문제와 2차원 판-3차원 유체 결합의 2차원 문제를 적용하여 수치해석을 수행하였다. 그리고 1차원 문제와 2차원 문제의 모델링 차원에 따른 응답을 비교하기 위해 다양한 평판의 변장비와 입사파의 조건을 적용하였다. 이에 따르면 강체거동의 영향이 큰 장주기파에서는 변장비가 변하더라도 두 문제의 유탄성 응답이 거의 유사하게 나타나지만 탄성거동의 영향이 지배적인 단주기파에서는 모델링 차원에 따라 뚜렷한 차이가 발생한다. 즉, 1차원 보 모델은 비록 입사파의 각도는 고려할 수 없지만 평판의 변장비가 클 경우에 유탄성 해석에 적용이 가능하다. 또한, 2차원 평판보다 단순화된 모델링 조건으로서 부유구조물의 전반적인 응답을 분석할 수 있을 뿐만 아니라 수치해석의 효율을 높일 수 있다.