• 대한기계학회논문집B
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• 제20권10호
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• pp.3361-3370
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• 1996

Micro-Macro approach is conducted for the mixture solidification to handle the closely linked phenomena of microscopic solute redistribution and macroscopic solidification behavior. For this purpose, present work combines the efficiency of mixture theory for macro part and the capability of microscopic analysis of two-phase model for micro part. The micro part of present study is verified by comparison with experiment of Al-4.9 mass% Cu alloy. The effect of back diffusion on the macroscopic variables such as temperature and liquid concentration, is appreciable. The effect, however, is considerable on the mixture concentration and eutectic fraction which are indices of macro and micro segregation, respectively. According to the diffusion time, the behavior near the cooling wall where relatively rapid solidification permits short solutal diffusion time, approaches Scheil equation limit and inner part approaches lever rule limit.

• 대한기계학회논문집B
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• 제20권11호
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• pp.3655-3665
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• 1996

An analytical solution is presented for the conduction-dominated solidification of a binary mixture in a semi-infinite medium. The present approach differs from that of other solution by these four characteristics. (1) Solid fraction is determined from the phase diagram, (2) thermophysical properties in mushy zone are weighted according to the local solid fraction, (3) non-equilibrium solidification can be simulated and (4) the cooling condition of under-eutectic temperature can be simulated. Up to now, almost all analyses are based on the assumption of constant properties in mushy zone and solid fraction linearly with temperature or length. The validation for these assumptions, however, shows that serious error is found except some special cases. The influence of microscopic model on the macroscopic temperature profile is very small and can be ignored. But the solid fraction and average solid concentration which directly influence the quality of materials are drastically changed by the microscopic models. An approximate solution using the method of weighted residuals is also introduced and shows good agreement with the analytical solution. All calculations are performed for NH$_{4}$Cl-H$_{2}$O and Al-Cu system.

• Nuclear Engineering and Technology
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• 제40권7호
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• pp.551-560
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• 2008

Radiation has stochastic aspects in its generation, its choice of interaction mode during traveling in media, and its impact on living bodies. In certain circumstances, like in high dose environments resulting from low-LET radiation, the variance in its impact on a target volume is negligible. On the contrary, in low dose environments, especially when they are attributed to high-LET radiation, the impact on the target carries with it a large variance. This variation is more significant for smaller target volumes. Microdosimetric techniques, which have been developed to estimate the distribution of radiation energy deposited to cellular and subcellular-sized targets, contrast with macrodosimetric techniques which count only the average value. Since cells and DNA compounds are the critical targets in human bodies, microdosimetry, or dose estimation by microscopic approach, helps one better analyze the biological effects of radiation on the human body. By utilizing microbeam systems designed for individual cell irradiation, scientists have discovered that human cells exhibit radiosensitive reactions without being hit themselves (bystander effect). During the past 10 or more years, a new therapeutic protocol using discontinuous multiple micro-slit beams has been investigated for its clinical application. It has been suggested that the beneficial bystander effect is the essence of this protocol.

• Structural Engineering and Mechanics
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• 제72권3호
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• pp.313-327
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• 2019

Damage evolution in the form of void nucleation, propagation and coalescence is the primary cause that is responsible for the ductile failure of microalloyed steels. The Gurson-Tvergaard-Needleman (GTN) damage model has proven to be extremely robust for characterizing the microscopic damage behavior of ductile metals. Nonetheless, successful applications of the model on a given metal type are limited by the correct identification of damage parameters as well as the validation of the calculated void growth rate. The purpose of this study is two-fold. First, we aim to identify the damage parameters of the GTN model for Q345 steel (Chinese code), due to its extensive application in mechanical and civil industries in China. The identification of damage parameters is facilitated by the well-suited response surface methodology, followed by a complete analysis of variance for evaluating the statistical significance of the identified model. Second, taking notched Q345 cylinders as an example, finite element simulations implemented with the identified GTN model are performed in order to analyze their microscopic damage behavior. In particular, the void growth rate predicted from the simulations is successfully correlated with experimentally measured acoustic emissions. The quantitative correlation suggests that during the yielding stage the void growth rate increases linearly with the acoustic emissions, while in the strain-hardening and softening period the dependence becomes an exponential function. The combined experimental and finite element approach provides a means for validating simulated void growth rate against experimental measurements of acoustic emissions in microalloyed steels.

• 한국환경과학회지
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• 제32권9호
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• pp.627-634
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• 2023

Tire wear particles(TWPs), regarded as a microplastic, is generated in significant quantities each year and exist in various spaces and have a negative impact on the surrounding environment. Particularly, roadside environments fall within the direct influence of TWPs, necessitating proactive investigation for contamination management and response. Therefore, this study aimed to investigate the soil acidity and electrical conductivity(EC) and TWPs in the roadside soil of six sites based on traffic volume. The analysis revealed that the soil in all sites exhibited subacidity, and there were no significant differences in EC. Microscopic and FT-IR analysis revealed the presence of microscopic particles in soil samples that exhibited common visual characteristics of TWPs. In the road with the highest traffic volume, 48,300 TWPs were detected per unit area. Furthermore, a proportional relationship between traffic volume and TWPs particles was established. However, influences other than traffic volume on TWPs particle count within the soil were observed. Therefore, for the management of TWPs contaminated roadside soil, a proactive response is necessary in areas with high traffic volumes. However, in order to effectively address the factors contributing to the generation and dispersion of TWPs, further research is required with a multidimensional approach.

• 한국과학교육학회지
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• 제39권5호
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• pp.681-694
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• 2019

This study intends to delineate the characteristics of various perspectives on the nature of science (NOS) through the textbook analysis. Thus, centering on a science textbook called Science Laboratory Experiments, this study analyzes the elements of the NOS from three different perspectives: the consensus view, features of science (FOS), and family resemblance approach (FRA). While the consensus view highlights the similar elements of the NOS across the topics, the FOS is concerned about empirical ways for doing science. The FRA rather focuses on socio-cultural aspects of science activities. While the consensus view is useful to reify the features of the NOS, the FRA helps to understand science from various viewpoints. Regarding the philosophical account for three perspectives, all of them are ambiguous to some extent. The consensus view holds contradictory dispositions e.g., relativism vs. (post-)positivism, and critical realism and instrumentalism. The FOS supports empirical tradition but cannot effectively cope with the anomalous situation. The FRA is useful to show up the ways of science in both microscopic (personal) and macroscopic (social) viewpoints. However, the broader concept about science may mislead understanding of the NOS. Consequently, this study provides some implication for improving the framework of the NOS and teaching the NOS in the classroom.

• 대한교통학회지
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• 제23권1호
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• pp.67-80
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• 2005

신호교차로의 용량 및 서비스수준을 분석하는데 지체를 기본적인 평가척도로 이용하고 있다. 지금까지 연구되어진 다양한 지체모형은 비포화와 포화상태를 고려한 교통조건하에서 교차로 신혼운영전략 및 기하구조 개선에 중요한 척도로 이용되고 있다. 본 연구는 대기행렬모형, 충격파모형, 정상상태 확률적 모형, 시간종속 확률적 모형, 거시적 및 미시적 시뮬레이션 모형에 대한 지체를 비교 ${\cdot}$분석하였다. 분석결과를 보면, v/c ratio가 증가함에 딸 지체는 단조 증가형태를 띠고 있다. 비포화상태에서는 결정적모형과 확률적 모형의 지체 모두 비슷한 값으로 나타났으며, 포화상태에서는 1994 HCM모형을 제외하고는 모두 유사한 곡선의 패턴을 유지하면서 지체값은 어느정도 차이를 보이고 있다. 전통적인 대기행렬모형과 충격파모형은 이미 이론적으로 검증되었듯이 동일한 지체값이 나왔다. 정상상태 확률적 모형인 webster모형은 v/c-0.8이하에서는 2001 KHCM과 거의 동일한 값을 나타냈으며, v/c=1.0에 가까울수록 무한대로 증가하는 경향을 보이고 있다. 시간종속 확률적 모형은 결정적 포화상태모형을 점근선으로 하여 지체를 산정하기 때문에 점진적으로 단조증가 형태를 띠로 있다. 거시결정적 시뮬레이션인 TRANSYT-7F의 두 모형인 link-wise simulation과 step-wise simulation은 v/c=1.0까지는 2001 KHCM모형과 거의 동일한 값을 나타냈으며, v/c=1.0 이상에서는 step-wise simulation이 상대적으로 높게 나타났다. 미시확률적인 시뮬레이션인 NETSIM모형은 개별차량간의 상호작용과 교통량 변화에 따른 미시적인 운전자 형태를 모사하기 때문에 다른 모형에 비해 낮게 나타났다. 또한 TRANSYST-7F와 NETSIM을 비교하였을 때 지체값의 차이가 크게 나타난 것은 차량 형태 알고리즘이 다르기 때문에 이를 비교한다는 것은 큰 의미가 없을 것으로 판단된다.

• Archives of Hand and Microsurgery
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• 제23권4호
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• pp.301-305
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• 2018

혈관종은 내피세포로부터 기원한 양성종양의 일종으로, 수부에서는 드물게 발생하는 것으로 알려져 있다. 62세 여자환자로 우측 2수지 요골측의 통증을 주소로 내원하였으며, 시행한 자기공명영상에서 수지신경을 압박하는 것으로 보이는 혈관종이 의심되었다. 수술을 시행하여 요골측 수지신경 및 수지혈관을 압박하고 있는 혈관종을 확인하였으며, 수지신경 및 혈관을 가능한 보존하기 위하여 미세수술을 통해 혈관종을 제거하였다. 공간점유성 병변에 의한 압박성 신경병증은 드문 일로, 정확한 진단에 어려움이 있으나, 본 증례와 같이 자기공명영상을 통한 술 전 평가와 및 미세수술을 이용한 병변 제거 및 신경 보존을 통하여 신경병성 통증을 성공적으로 호전시킬 수 있을 것으로 생각한다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2013년도 제44회 동계 정기학술대회 초록집
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• pp.645-645
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• 2013

Applying a first-principles computational approach combining density-functional theory and matrix Green's function calculations, we have studied the effects [2+2] cycloaddition olligormerization of fullerene $C_{60}$ chains on their junction charge transport properties. Analyzing first the microscopic mechanism of the switching realized in recent scanning tunneling microscope (STM) experiments, we found that, in agreement with experimental conclusions, the device characteristics are not significantly affected by the changes in electronic structure of $C_{60}$ chains. It is further predicted that the switching characteristics will sensitively depend on the STM tip metal species and the associated energy level bending direction in the $C_{60}-STM$ tip vacuum gap. Considering infinite $C_{60}$ chains, however, we confirm that unbound $C_{60}$ chains with strong orbital hybridizations and band formation should in principle induce a much higher conductance state. We demonstrate that a nanoelectromechanical approach in which the $C_{60}-STM$ tip distance is maintained at short distances can achieve a metal-independent and drastically improved switching performance based on the intrinsically better electronic connectivity in the bound $C_{60}$ chains.

• Journal of Microbiology and Biotechnology
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• 제17권3호
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• pp.468-473
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• 2007

White rot fungi, Phanerochaete chrysosporium and Phanerochaete sordida, have been mostly studied in a variety of industrial processes like biopulping and pulp bleaching as well as in bioremediation. Whereas P. sordida is widely distributed in the North Temperate Zone, P. chrysosporium is reported in the restricted area and hundreds of reports have been described from a few strains of P. chrysosporium, which are deposited at various fungal collections in the world. The isolates of two species are not easily discriminated because of their morphological and molecular similarity. Through the ITS sequence analyses, a region containing substantial genetic variation between the two species was identified. PCR amplification using two specific primers was successfully used to differentiate P. chrysosporium from P. sordida. These results were supported by cultural studies. The growth rates at $37^{\circ}C$ on PDA, MEA, and Cza and the microscopic features of conidia on PDA and YMA were also very useful to differentiate those two species.