• 한국수소및신에너지학회논문집
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• 제22권2호
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• pp.129-138
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• 2011

Performance changes of an anode-supported tubular SOFC including current collectors are analyzed at different current collecting methods using numerical simulation. From the two dimensional numerical model of the solid oxide fuel cell with nickel felts as anodic current collectors and silver wires as cathodic ones, the performance curves and the distributions of temperature, concentration, current density are obtained. Also, the voltage loss of the cell is divided into three parts: activation loss, concentration loss and ohmic loss. The results show that the performance change of the cell is dominantly influenced by the ohmic loss. Although the temperature and concentration distributions are different, the total activation loss and concentration loss are nearly same. And the ohmic loss is divided into each parts of the cell components. The ohmic loss of the anodic current collectorreaches about 60~80% of the cell's total ohmic loss. Therefore, the reduction of the ohmic loss of the anodic current collector is very important for stack power enhancement. It is also recommended that the load should be connected to the both ends of the anodic current collector.

• International Journal of Automotive Technology
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• 제5권1호
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• pp.33-46
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• 2004

A finite element model development of a 50th percentile male cervical spine is presented in this paper. The model consists of rigid, geometrically accurate vertebrae held together with deformable intervertibral disks, facet joints, and ligaments modeled as a series of nonlinear springs. These deformable structures were rigorously tuned, through failure, to mimic existing experimental data; first as functional unit characterizations at three cervical levels and then as a fully assembled c-spine using the experimental data from Duke University and other data in the NHTSA database. After obtaining satisfactory validation of the performance of the assembled ligamentous cervical spine against available experimental data, 22 cervical muscle pairs, representing the majority of the neck's musculature, were added to the model. Hill's muscle model was utilized to generate muscle forces within the assembled cervical model. The muscle activation level was assumed to be the same for all modeled muscles and the degree of activation was set to correctly predict available human volunteer experimental data from NBDL. The validated model is intended for use as a post processor of dummy measurement within the simulated injury monitor (SIMon) concept being developed by NHTSA where measured kinematics and kinetic data obtained from a dummy during a crash test will serve as the boundary conditions to "drive" the finite element model of the neck. The post-processor will then interrogate the model to determine whether any ligament have exceeded its known failure limit. The model will allow a direct assessment of potential injury, its degree and location thus eliminating the need for global correlates such as Nij.

• 한국표면공학회:학술대회논문집
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• 한국표면공학회 2018년도 춘계학술대회 논문집
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• pp.23-23
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• 2018

In this study, new titanium alloys were prepared by adding elements such as tantalum (Ta), zirconium (Zr) and the like to complement the biological, chemical and mechanical properties of titanium alloys. The Ti-40Ta-xZr ternary alloy was formed on the basis of Ti-40Ta alloy with the contents of Zr in the contents of 0, 3, 7 and 15 wt. %. Plasma electrolytic oxidation (PEO), which combines high-voltage sparks and electrochemical oxidation, is a novel method to form ceramic coatings on light metals such as Ti and its alloys. These oxide film produced by the electrochemical surface treatment is a thick and uniform porous form. It is also composed of hydroxyapatite and calcium phosphate-based phases, so it has the characteristics of bone inorganic, non-toxic and very high bioactivity and biocompatibility. Ti-40Ta-xZr alloys were homogenized in an Ar atmosphere at $1050^{\circ}C$ for 1 hour and then quenched in ice water. The electrochemical oxide film was applied by using a power supply of 280 V for 3 minutes in 0.15 M calcium acetate monohydrate ($Ca(CH_3COO)_2{\cdot}H_2O$) and 0.02 M calcium glycerophosphate ($C_3H_7CaO_6P$) electrolyte. A small amount of 0.0075M zinc acetate and magnesium acetate were added to the electrolyte to enhance the bioactivity. The mechanical properties of the coated surface of Ti-40Ta-xZr alloys were evaluated by Vickers hardness, roughness test, and elastic modulus using nano-indentation, and the surface wettability was evaluated by measuring the contact angle of the coated surface. In addition, cell activation and differentiation were examined by cell culture of HEK 293 (Human embryonic kidney 293) cell proliferation. Surface properties of the alloys were analyzed by scanning electron microscopy(FE-SEM), EDS, and X-ray diffraction analysis (XRD).

• 대한기계학회논문집B
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• 제33권1호
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• pp.38-45
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• 2009

Oxy-fuel combustion of pulverized coal is one of the promising new technologies to reduce $CO_2$ and NOx from coal combustion. However, the stability of pulverized coal flame is reduced in the oxy-fuel combustion. This flame stability is concerned with the flame propagation that is affected by surrounding gas and coal characteristics, such as gas temperature, gas composition, coal volatile, coal activation energy and coal size. In this paper, a study on the influence of surrounding gas and coal characteristics on the flame propagation velocity in oxy-fuel combustion of pulverized coal was preformed. One dimensional model was used to calculate the flame propagation velocity of pulverized coal clouds. In this model, the radiation is considered to be the main source of heat exchange, and Monte Carlo method was adopted for accurate calculation of radiation heat flux. It was found that the flame propagation velocity become higher with the decrease of coal activation energy and the increase of coal volatile. Also, according to the increase of gas temperature and $O_2$ concentration, flame propagation velocity increased.

• The Korean Journal of Physiology and Pharmacology
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• 제12권5호
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• pp.253-258
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• 2008

Somatostatin (SOM) is a widely distributed peptide in the central nervous system and exerts a variety of hormonal and neural actions. Although SOM is assumed to play an important role in spinal nociceptive processing, its exact function remains unclear. In fact, earlier pharmacological studies have provided results that support either a facilitatory or inhibitory role for SOM in nociception. In the current study, the effects of SOM were investigated using anesthetized cats. Specifically, the responses of rostrally projecting spinal dorsal horn neurons (RPSDH neurons) to different kinds of noxious stimuli (i.e., heat, mechanical and cold stimuli) and to the $A{\delta}$ -and C-fiber activation of the sciatic nerve were studied. Iontophoretically applied SOM suppressed the responses of RPSDH neurons to noxious heat and mechanical stimuli as well as to C-fiber activation. Conversely, it enhanced these responses to noxious cold stimulus and $A{\delta}$-fiber activation. In addition, SOM suppressed glutamate-evoked activities of RPSDH neurons. The effects of SOM were blocked by the SOM receptor antagonist cyclo-SOM. These findings suggest that SOM has a dual effect on the activities of RPSDH neurons; that is, facilitation and inhibition, depending on the modality of pain signaled through them and its action site.

• Composites Research
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• 제33권5호
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• pp.268-274
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• 2020

이 연구에서는 에폭시 수지에 나노 실리카 입자의 농도가 열화 거동에 미치는 영향에 대해 알아보았다. 약 12 nm 크기의 실리카 입자를 에폭시 수지에 세가지 무게비로 섞은 나노 복합소재를 제작하여 열중량분석(Thermogravimetric Analysis, TGA)을 이용하여 여섯 가지의 서로 다른 승온률 하에서 열화거동 변화를 분석하였다. 등변환법(Isoconversional Method)에 기초한 Friedman, Flynn-Wall-Ozawa, Kissinger 그리고 DAEM(Distributed Activation Energy Method) 방식으로 활성화에너지를 정량적으로 계산하였다. 계산 결과에 의하면 순수 에폭시와 비교했을 때, 실리카 입자가 함유될 경우 활성화에너지가 상승한다는 것을 확인할 수 있었다. 그러나 10%와 18%의 활성화에너지 값이 유사함에 따라 반드시 함유랑에 비례하지는 않는 것으로 나타났다. 또한 각 방법에 의한 계산방식을 분석하여 그 결과를 비교하였다.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2001년도 추계학술대회논문집A
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• pp.117-122
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• 2001

For two kinds of 25Cr-20Ni stainless steels, SUS310J1TB TB and SUS310S with and without a small amount of Nb and N, creep behavior has been studied in a stress and temperature range from 147 to 392MPa and from 923 to 973K with a special reference to tertiary creep. The average creep life of SUS310J1TB was about 100 times longer than that of the SUS310S. The apparent activation energy for the initial creep rate was 330 kJ/mol in SUS310J1TB, while that of the SUS310S was 274 kJ/mol in a power law creep region and 478 kJ/mol in a region of power law breakdown (PLB). The activation energy for SUS310S below PLB is close to the that for self-diffusion. When compensating for the temperature dependence of the Young's modulus and the omega value, it was found that the apparent activation energy for SUS310J1TB was reduced to the activation energy for diffusion of chromium atom in a gamma steel. The stress exponent of SUS310S was about 12 above PLB and 5.1 in a power law creep region. Notwithstanding that the creep condition for SUS310J1TB was in a power law creep region, its stress exponent was 8.3 larger than that of SUS310S corresponding to the same creep conditions. This was ascribed to the presence of fine precipitates in SUS310J1TB.

• 한국항공우주학회지
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• 제48권12호
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• pp.945-952
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• 2020

이 연구에서는 저궤도 우주 환경(LEO) 조건에서 나노실리카 에폭시 복합소재의 실리카 농도가 재료의 열화 거동에 미치는 영향에 대해 알아보았다. 실리카 입자를 에폭시 수지에 10%와 18% 두 가지 서로 다른 무게비로 나노복합소재를 제작하여 저궤도 우주 환경 모사장치에서 열화시켰다. 열화된 나노복합소재를 대상으로 열중량분석(Thermogravimetric Analysis, TGA)를 수행하였고 등변환법(Iso-conversional Method)에 기반한 Friedman 방법, Flynn-Wall-Ozawa(FWO) 방법, Kissinger 방법, 그리고 DAEM(Distributed Activation Energy Method)으로 활성화에너지를 계산하였다. 그 결과 나노입자가 섞이지 않은 샘플은 열화가 진행되면서 중가함을 보였다. 그러나 10%와 18%는 열화 싸이클이 15회일 때까지 증가하였으나 그 이후에는 감소하였으며, 따라서 나노 입자가 열화 거동에 부정적인 영향이 있음을 보였다. 또한 활성화에너지 계산에 적용된 방법에 대해 토의하였다.

• Korean Journal of Acupuncture
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• 제30권1호
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• pp.56-63
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• 2013

목적 : 신경병증성 통증 쥐 모델에서 통증 행동과 척수 교세포의 활성화에 대한 반복적 전침의 영향을 실험하였다. 방법 : 21마리 Sprague-Dawley 성체 수컷 쥐를 무작위적으로 대조군, SP6 군, ST36+GB34 군으로 나누었다. 신경병증성 통증은 L5 척수신경을 단단하게 묶는 것으로 유도하였다. 신경병증성 통증이 유도된 뒷발에 기계적 및 열적 민감도를 조사하였다. 모든 군의 L5/6 척수에서 면역조직화학염색법을 수행하였다. 수술 이후 5일째부터 하루에 한번씩 전침을 시행하였다. 결과 : 족삼리(ST36)와 양릉천(GB34)에 적용된 전침은 3번의 처치 이후 실험기간 내내 기계적 및 열적 민감도를 모두 감소시켰다. 삼음교(SP6) 군에서는 진통 효과가 7번의 처치 이후 감소됨을 보였다. 면역조직화학염색법은 ST36+GB34 군에서 L5/6 척수 후각에서 교세포와 성상세포의 활성화가 억제됨을 보였다. 결론 : 이 결과는 반복적인 전침은 신경병증성 통증에 강한 진통 효과를 발휘 하는 것을 시사한다. 신경병증성 통증에서 이 진통 효과는 교세포와 성상세포의 활성화를 억제하는 것과 관련이 있다.

• Journal of Mechanical Science and Technology
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• 제19권9호
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• pp.1761-1772
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• 2005

In blood flow passing through the mechanical heart valve (MHV) and elastic blood vessel, hemolysis and platelet activation causing thrombus formation can be seen owing to the shear stress in the blood. Also, fracture and deformation of leaflets can be observed depending on the shape and material properties of the leaflets which is opened and closed in a cycle. Hence, comprehensive study is needed on the hemodynamics which is associated with the motion of leaflet and elastic blood vessel in terms of fluid-structure interaction. In this paper, a numerical analysis has been performed for a three-dimensional pulsatile blood flow associated with the elastic blood vessel and curved bileaflet for multiple cycles in light of fluid-structure interaction. From this analysis fluttering phenomenon and rebound of the leaflet have been observed and recirculation and regurgitation have been found in the flow fields of the blood. Also, the pressure distribution and the radial displacement of the elastic blood vessel have been obtained. The motion of the leaflet and flow fields of the blood have shown similar tendency compared with the previous experiments carried out in other studies. The present study can contribute to the design methodology for the curved bileaflet mechanical heart valve. Furthermore, the proposed fluid-structure interaction method will be effectively used in various fields where the interaction between fluid flow and structure are involved.