• 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.

• 수산해양기술연구
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• 제36권4호
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• pp.329-336
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• 2000

정치망 어선에 사용하는 더블 캡스턴 드럼의 용접공정은, 순간적으로 집중투입되는 고온열원에 의해 상당 열응력과 열변형 거동이 시간의 경과에 따라 비정상적으로 발생한다. 유한요소법으로 이것들의 거동을 해석한 후 다음과 같은 결론을 얻었다. 1) 용접 초기에는 용접열원 위치에서 54∼48MPa의 상당 열응력을 나타내고, 캡스턴 드럼의 내부로 진행될수록 42∼18Mpa 정도의 열응력 분포를 보이며, 열응력 구배는 1mm당 3.6MPa의 기울기를 형성하고 있었다. 용접열원에서 0.004∼0.015mm정도의 미세한 변형량이 계산되었고 좌측 자유단으로 진행하면서 0.03∼0.033mm의 변형량은 용접초기에 열충격 현상으로 발생한 것으로 사료되므로 이에 대한 대비책이 있어야 한다. 2) 용접 중반부에서는 상당 열응력 크기는 용접 초기보다 다소 작아져서 최대 51MPa, 최소 11.3MPa을 보여주며 열응력 기울기도 다소 완화된다. 이것은 용접 열원이 이동하면서 발생하는 예열효과로 상당 열응력이 감소한 것으로 사료된다. 상당 열변형의 크기는 최대 0.04mm, 최소 0.0045mm 정도를 형성하고 있고, 용접열원의 진행으로 전체적인 변형 양상이 용접진행 방향과 동일하게 이동하고 있다. 3) 용접공정의 후반부는 상당 열변형량이 최소 0.005mm, 최대 0.045mm 정도이므로, 정밀한 용접가공을 위해 반대방향에 지그나 고정구를 설치해야 한다. 상당 열응력의 구배는 모재 내부로 진행된 양상을 보이고 있으나 열응력의 절대 크기는 최소 3MPa에서 최대 27MPa로 작아졌다. 이 것은 용접의 이동열원이 제거됨으로서 모재 내부의 열응력이 현저히 저하되었음을 의미하지만, 잔류 열응력이 존재하므로 뜨임처리와 같은 후처리가 요망된다.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2011년도 정기총회 및 추계학술대회 논문집
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• pp.2405-2408
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• 2011

In recent time, the cause analysis and the reduction of the track irregularity have become the most important issue in the ballasted track on the high-speed railway bridge. This is because that the frequency of the maintenance work at the bridge expansion joint zone is on the rise. The track irregularity on the railway bridge starts at the end of the bridge-deck and spreads along the bridge. Due to the dynamic vibration and the thermal expansion of the bridge, the compaction of the ballast gravel on the bridge expansion joint zone become loose and then the progress of the track irregularity result from the train-induced dynamic impact is accelerating further. Among the several options for reducing the track irregularity on the bridge expansion joint zone, the application and efficiency of the zero longitudinal restraint(ZLR) and tied sleeper are investigated in this paper. Field test construction has been conducted, then the progress of the track irregularity and the frequency of the maintenance work are analyzed before and after the filed test construction. Of the two methods, it is shown that the installation of the ZLR seems to be better than the tied sleeper.

• Journal of Welding and Joining
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• 제12권2호
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• pp.87-96
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• 1994

Correlation between microstructural features and segregation of elements (Si, Mn, P and S) near the mid of thickness in the base metal and the synthetic HAZ was investigated. Furthermore, the relationship between the degree of center segregation and weld cold cracking susceptibility in the thickness direction was also conducted by evaluating the effect of P concentration on the critical applied stress. The results obtained are as follows: 1) Pearlite band, containing the MnS type inclusion and a locally transformed structure with a higher hardness, was observed in the center segregation region. 2) By the weld thermal cycle, center segregation region was transformed to the white band which had a higher hardness than that of base metal due to a greater hardenability of concentrated Mn, P etc.. 3) Weld cold cracking susceptibility in the thickness direction was mainly dependent on the concentration of impurity elements rather than on the number of the segregated particles near the mid of thickness. 4) During welding, the higher concentrated region was easily changed into white band. Therefore, it could be predicted that the initiation and propagation of a cold crack would be promoted by increasing the restraint stress and hydrogen content.

• 설비공학논문집
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• 제12권2호
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• pp.150-160
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• 2000

Turbulent natural convective flow and heat transfer in a square enclosure with horizontal partition are investigated numerically. The enclosure is composed of a lower hot and a upper cold horizontal walls and adiabatic vertical walls. Partitions carried with the upward, downward, and both control plates are attached perpendicularly to the one of the vertical insulated walls, respectively. The low Reynolds number $k-\varepsilon$ model is adopted to calculate the turbulent thermal convection. The governing equations are solved by using the finite element method with Galerkin method. The computations have been carried out by varying the length of partition, the position of control plates, and the Rayleigh number based on the temperature difference between two horizontal walls and the enclosure height for water(Pr=4.95). When the control plates are attached at the edge of partition, the stability of oscillating flow grows wrose with the increase of Rayleigh number and the partition length. The heat transfer rate has been reducer than that of no control plate due to the restraint of control plates with the increase of Rayleigh number.

• 국제강구조저널
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• 제18권5호
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• pp.1497-1507
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• 2018

Most of previous studies on fire resistance of restrained steel beams neglected creep effect due to lack of suitable creep model. This paper presents a finite element model (FEM) for accessing the fire resistance of restrained high strength Q460 steel beams by taking high temperature Norton creep model of steel into consideration. The validation of the established model is verified by comparing the axial force and deflection of restrained beams obtained by finite element analysis with test results. In order to explore the creep effect on fire response of restrained Q460 steel beams, the thermal axial force and deflection of the beams are also analyzed excluding creep effect. Results from comparison infer that creep plays a crucial role in fire response of restrained steel beam and neglecting the effect of creep may lead to unsafe design. A set of parametric studies are accomplished by using the calibrated FEM to evaluate the governed factors influencing fire response of restrained Q460 steel beams. The parametric studies indicate that load level, rotational restraint stiffness, span-depth ratio, heating rate and temperature distribution pattern are key factors in determining fire resistance of restrained Q460 steel beam. A simplified design approach to determine the moment capacity of restrained Q460 steel beams is proposed based on the parametric studies by considering creep effect.

• 콘크리트학회지
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• 제7권6호
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• pp.176-185
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• 1995

매스콘크리트 구조물에서 시멘트의 수화발열반응에 발생된 열은 약재령 콘크리트에서 내부온도의 증가와 체적변화를 일으키게 된다. 이와 같은 온도증가에 외부구속조건이 존재하게 되면, 구조물에는 인장응력이 발생하고 이는 구조물에 균열을 일으킬 수 있다. 따라서 매스콘크리트 구조물 건설시 수화열에 의한 온도증가를 제어하기 위해 다양한 시공기법을 이용하고 있으며, 이들 공법 중 하나가 관에 냉각수를 유입시켜 온도를 하강시키는 파이프쿨링 공법이다. 이 논문의 목적은 파이프쿨링을 실시할 때 수화열로 인한 온도이력을 모사할 수 있는 유한요소해석 프로그램을 개발하는 것이다. 이 연구에서 개발된 해석 프로그램의 결과와 실제 구조물의 기초부(11$\times$22cm)의 실측 결과가 잘 일치함을 보였다. 따라서 여기서 제시된 방법은 파이프쿨링으로 인한 콘크리트의 수화온도 예측에 유용하게 이용될 수 있을 것으로 판단된다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 1997년도 가을 학술발표회 논문집
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• pp.3-23
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• 1997

The growth in fast-track construction and repair has prompted major efforts to develop high-early-strength concrete mix compositions. Such mixtures rely on the use of relatively high cement contents and accelerator dosages to increase the rate of strength development. The measures, however, seem to compromise the long-term performance of concrete in applications such as full-depth patches as evidenced by occasional premature deterioration of such patches. The hypothesis successfully validated in this research was that traditional methods of increasing the early-age strength of concrete, involving the use of high cement and accelerator contents, increase the moisture and thermal movements of concrete. Restraint of such movements in actual field conditions, by external or internal restraining factors, generates tensile stresses which introduced microcracks and thus increase the permeability of concrete. This increase in permeability accelerates various processes of concrete deterioration, including freeze-thaw attack. Fiver reinforcement of concrete is an effective approach to the control of microcrack and crack development under tensile stresses. Fibers, however, have not been known of accelerating the process of strength gain in concrete. The recently developed specialty cellulose fibers, however, were found in this research to be highly effective in increasing the early-age strength of concrete. This provides a unique opportunity to increase the rate of strength gain in concrete without increasing moisture an thermal movements, which actually controlling the processes of microcracking and racking in concrete. Laboratory test results confirmed the desirable resistance of specialty cellulose fiber reinforced High-early-strength concrete to restrained shrinkage microcracking an cracking, and to different processes of deterioration under weathering effects.

• Nuclear Engineering and Technology
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• 제49권4호
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• pp.734-743
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• 2017

In order to investigate the swelling behavior and fuel-cladding interaction mechanism of U-10Zr alloy metallic fuel at very low burnup, an irradiation experiment was concisely designed and conducted on the China Mianyang Research Reactor. Two types of irradiation samples were designed for studying free swelling without restraint and the fuel-cladding interaction mechanism. A new bonding material, namely, pure aluminum powder, was used to fill the gap between the fuel slug and sample shell for reducing thermal resistance and allowing the expansion of the fuel slug. In this paper, the concise irradiation rig design is introduced, and the neutronic and thermal-hydraulic analyses, which were carried out mainly using MCNP (Monte Carlo N-Particle) and FLUENT codes, are presented. Out-of-pile tests were conducted prior to irradiation to verify the manufacturing quality and hydraulic performance of the rig. Nondestructive postirradiation examinations using cold neutron radiography technology were conducted to check fuel cladding integrity and swelling behavior. The results of the preliminary examinations confirmed the safety and effectiveness of the design.

• 콘크리트학회논문집
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• 제15권5호
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• pp.759-767
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• 2003

This paper presents the simplified but more rational analysis method for the prediction of additional internal forces induced in integral abutment bridges. These internal forces depend upon the degree of restraint provided tc the deck by the backfill soil adjacent to the abutments and piles. In addition, effect of the relative flexural stiffness ratio among pile foundations, abutment, and superstructure on the structural behavior is also an important factor. The first part of the paper develops the stiffness matrices, written in terms of the soil stiffness, for the lateral and rotational restraints provided by the backfill soil adjacent to the abutment. The finite difference analysis is conducted and it is confirmed that the results are agreed well with the predictions obtained by the proposed method. The simplified spring model is used in the parametric study on the behavior of simple span and multi-span continuous integral abutment PSC beam bridges in which the abutment height and the flexural rigidity of piles are varied. These results are compared with those obtained by loading Rankine passive earth pressure according to the conventional method. From the results of parametric study, it was shown that the abutment height, the relative flexural rigidity of superstructure and piles, and the earth pressure induced by temperature change greatly affect the overall structural response of the bridge system. It may be possible to obtain more rational and economical designs for integral abutment bridges by the proposed method.