• Title/Summary/Keyword: 부하 부산

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Feasibility of Single-Shot Dual-Energy X-ray Imaging Technique for Printed-Circuit Board Inspection (인쇄회로기판 검사를 위한 단일조사 이중에너지 엑스선 영상기법의 유용성에 관한 연구)

  • Kim, Seung Ho;Kim, Dong Woon;Kim, Daecheon;Kim, Junwoo;Park, Ji Woong;Park, Eunpyeong;Kim, Jinwoo;Kim, Ho Kyung
    • Journal of Radiation Industry
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    • v.9 no.3
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    • pp.137-141
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    • 2015
  • A single-shot dual-energy x-ray imaging technique has been developed using a sandwich detector by stacking two detectors, in which the front and rear detectors respectively produce relatively lower and higher x-ray energy images. Each detector layer is composed of a phosphor screen coupled with a photodiode array. The front detector layer employs a thinner phosphor screen, whereas the rear detector layer employs a thicker phosphor screen considering the quantum efficiency for x-ray photons with higher energies. We have applied the proposed method into the inspection of printed circuit boards, and obtained dual-energy images with background clutter suppressed. In addition, the single-shot dual-energy method provides sharper-edge images than the conventional radiography because of the unsharp masking effect resulting from the use of different thickness phosphors between the two detector layers. It is promising to use the single-shot dual-energy x-ray imaging for high-resolution nondestructive testing. For the reliable use of the developed method, however, more quantitative analysis is further required in comparisons with the conventional method for various types of printed circuit boards.

A Brief Review on Polarization Switching Kinetics in Fluorite-structured Ferroelectrics (플루오라이트 구조 강유전체 박막의 분극 반전 동역학 리뷰)

  • Kim, Se Hyun;Park, Keun Hyeong;Lee, Eun Been;Yu, Geun Taek;Lee, Dong Hyun;Yang, Kun;Park, Ju Yong;Park, Min Hyuk
    • Journal of Surface Science and Engineering
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    • v.53 no.6
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    • pp.330-342
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    • 2020
  • Since the original report on ferroelectricity in Si-doped HfO2 in 2011, fluorite-structured ferroelectrics have attracted increasing interest due to their scalability, established deposition techniques including atomic layer deposition, and compatibility with the complementary-metal-oxide-semiconductor technology. Especially, the emerging fluorite-structured ferroelectrics are considered promising for the next-generation semiconductor devices such as storage class memories, memory-logic hybrid devices, and neuromorphic computing devices. For achieving the practical semiconductor devices, understanding polarization switching kinetics in fluorite-structured ferroelectrics is an urgent task. To understand the polarization switching kinetics and domain dynamics in this emerging ferroelectric materials, various classical models such as Kolmogorov-Avrami-Ishibashi model, nucleation limited switching model, inhomogeneous field mechanism model, and Du-Chen model have been applied to the fluorite-structured ferroelectrics. However, the polarization switching kinetics of fluorite-structured ferroelectrics are reported to be strongly affected by various nonideal factors such as nanoscale polymorphism, strong effect of defects such as oxygen vacancies and residual impurities, and polycrystallinity with a weak texture. Moreover, some important parameters for polarization switching kinetics and domain dynamics including activation field, domain wall velocity, and switching time distribution have been reported quantitatively different from conventional ferroelectrics such as perovskite-structured ferroelectrics. In this focused review, therefore, the polarization switching kinetics of fluorite-structured ferroelectrics are comprehensively reviewed based on the available literature.

Design of Chlorine-resistant layer for stable electrode in seawater-based electrochemical devices (해수 기반 전기화학소자의 안정적인 전극을 위한 내염소층 설계)

  • Suyeon Kim;Aye Myint Myat Kyaw;Chaeun Kim;Yewon Jang;Youri Han;Li Oi Lun
    • Journal of Surface Science and Engineering
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    • v.57 no.4
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    • pp.325-330
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    • 2024
  • When seawater is used in electrochemical devices, issues arise such as the adsorption of chloride ions blocking the active sites for Oxygen reduction reactions (ORR) in seawater batteries, and the occurrence of Chlorine evolution reactions (ClER) in seawater electrolysis due to chloride anions (Cl-) competing with OH- for catalytic active sites, potentially slowing down Oxygen evolution reactions (OER). Consequently, the performance of components used in seawater battery and seawater electrolysis may deteriorate. Therefore, conventional alloys are often used by coating or plating methods to minimize corrosion, albeit at the cost of reducing electrical conductivity. This study thus designed a corrosion-resistant layer by doping carbon with Nitrogen (N) and Sulfur (S) to maintain electrical conductivity while preventing corrosion. Optimal N,S doping ratios were developed, with corrosion experiments confirming that N,S (10:90) carbon exhibited the best corrosion resistance performance.

Thermal Gradient Change of T-shaped Mg Alloy Specimen Exposed to Electropulses (전류펄스 인가된 T자형 Mg 합금 시편의 온도 구배 변화)

  • J.H. Song;D.J. Park;S. Cheon;J. Yu;S.H. Lee;T. Lee
    • Transactions of Materials Processing
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    • v.33 no.4
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    • pp.285-290
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    • 2024
  • Electropulsing treatment (EPT) has been developed as an alternative to furnace heat treatment (FHT) to exploit its engineering advantages in rapidly annealing metallic materials. Conventionally, the separation of thermal and athermal effects of EPT has been attempted by comparing EPT and FHT specimens processed under identical temperature and duration. However, this method inherently introduces experimental and measurement errors. This study proposes a novel approach to distinguish the thermal and athermal effects of EPT-processed metals using T-shaped specimen with two observation points, namely 'C' and 'D'. For verification, the thermal gradient of T-shaped Mg alloys was examined under various EPT conditions. The points C exhibited higher temperatures compared to those at points D at a given electric current density, because only the former received both thermal and athermal effects. It was confirmed from twelve specimens that the point C at an electric current density of 65 A·mm-2 and point D at 70 A·mm-2 exhibited similar temperatures. This developed method is expected to reduce measurement errors in distinguishing thermal and athermal effects, thus providing a deeper understanding of their quantitative contributions in future studies.

LES Method Modeling and Fabrication of Al-TiB2 Composite by In-situ Melt Mixing Process (In-situ 용탕혼합 합성법에 의한 Al-TiB2 복합재료의 LES 기법 모델링 및 제조)

  • Park, Jungsu;Kim, Jonghoon;Ha, Manyoung;Park, Bongkyu;Park, Yongho;Park, Ikmin
    • Korean Journal of Metals and Materials
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    • v.46 no.6
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    • pp.382-389
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    • 2008
  • To manufacture Al MMCs, in-situ melt mixing process is used because it is free from contamination, and it makes reinforcements homogeneously dispersed. Large eddy simulation method is used to find the optimum melt mixing condition. At the Re 3000, the most suitable mixing is occurred between Al-Ti and Al- B melts. The in-situ formed $TiB_2$ particles has the size varying from 40 nm to 130 nm, due to the increase of cooling rate, and exhibits a homogeneous dispersion. And the interface between reinforcement and matrix is clean. Both hardness and Young's modulus of this composite are improved with increasing the cooling rate.

The Case of Toxicity Caused by Scopolia Japonica Ingestion Treated with Gamigamdu-Tang. (낭탕근(狼菪根) 중독 환자의 가미감두탕(加味甘豆湯) 투여 증례 1례)

  • Lee, Hye-Yoon;Cho, Su-In;Park, Hye-Lim;Cho, Min-Kyoung;Lee, In;Hong, Jin-Woo;Kwon, Jung-Nam
    • The Journal of the Society of Stroke on Korean Medicine
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    • v.15 no.1
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    • pp.50-56
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    • 2014
  • The prevalence rate of plant poisoning is growing up gradually. However, it could be difficult to get proper treatment without detail medical history taking due to the diversity of poisonous plants and their various symptoms. Scopolia Japonica, which grows naturally in Korea, is reported to cause severe toxicity which could be lethal. A few therapeutic measures have been reported in Traditional Korean Medicine (TKM), but it has not been reported yet that those measures have been successfully proven in the clinical practice in modern times. This is a case report of toxicity caused by scopolia japonica ingestion. A 65years-old male patient with cognitive impairment, behavioral disorder, gait difficulty, dysarthria, dysphagia and abnormal pupil reflex recovered from those symptoms during taking Gamigamdu-tang and getting acupuncture. This study shows the clinical aspects of Scopolia Japonica toxicity and the possibility of TKM treatments as one of plant poisoning treatments.

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A Study on Improving Formability of Stamping Processes with Segmented Blank Holders using Artificial Neural Network and Genetic Algorithm (인공신경망과 유전 알고리즘을 이용한 분할 블랭크 홀더 스탬핑 공정의 성형성 향상에 관한 연구)

  • G. P. Kim;S. D., Goo;M. S. Kim;G. M. Han;S. W. Jun;J. S. Lee;J. H. Kim
    • Transactions of Materials Processing
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    • v.32 no.5
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    • pp.276-286
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    • 2023
  • The field of sheet metal forming using press technology has become essential in modern mass production systems. Draw bead is often used to enhance formability. However, optimal draw bead design often requires excessive time and cost due to iterative experimentation and sometimes results in some defects. Given these challenges, there is a need to enhance formability by introducing segmented blank holders without draw beads. In this paper, the feasibility of a localized holding strategy using segmented blank holders is evaluated without the use of draw beads. The possibility for improving the formability was evaluated by utilizing a combination of the forming limit diagram and the wrinkle pattern-based defect indicators. Artificial neural networks were used for predicting defect indicators corresponding to arbitrary input holding forces and the NSGA-II optimization algorithm is used to find optimum blank holder forces yielding better defect indicators than the original process with drawbeads. Using optimum holding forces obtained from the proposed procedure, the stamping process with the segmented blank holders can yield better formability than the conventional process with drawbeads.

The Effect of Hardening Methods and Process Parameters on Surface Hardening of Ti-6Al-4V Alloy (Ti-6Al-4V 합금의 표면 경화 시 경화기구 및 공정변수가 표면 경화에 미치는 영향)

  • Seo, D.M.;Y., H. Jeong;Hwang, T.W.;Moon, Y.H.
    • Transactions of Materials Processing
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    • v.28 no.1
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    • pp.27-33
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    • 2019
  • The effect of hardening methods and process parameters on surface hardening of a Ti-6Al-4V Alloy has been investigated in this study. To characterize the effectiveness of the respective surface hardening methods, samples of a Ti-6Al-4V alloy were self-quenched, laser-nitrided, laser-carburized, laser-carbonitrided at the same laser irradiation conditions. This experimental procedure was followed by comparing the microstructural evolutions and mechanical properties of the respective samples after the laser surface hardenings. The hardening characteristics of the respective laser surface hardenings were well defined in this study, and the hardness was significantly influenced by the reaction compounds and laser energy density.