사진

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Byon, Chan (변찬) (2017-02~2019-01)

Department
기계항공및원자력공학부
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2015-04A generalized correlation for predicting the thermal conductivity of composite materialsNgo, Ich-Long; Byon, ChanARTICLE327 A generalized correlation for predicting the thermal conductivity of composite materials
2015-03A numerical study on the dynamics of droplet formation in a microfluidic double T-junctionNgo, Ich-Long; Dang, Trung-Dung; Byon, Chan, et alARTICLE334 A numerical study on the dynamics of droplet formation in a microfluidic double T-junction
2015-02Numerical study of a SiC mould subjected to a spark plasma sintering processByon, Chan; Li, Ming-Han; Kakegawa, Kazuyuki, et alARTICLE428 Numerical study of a SiC mould subjected to a spark plasma sintering process
2015-02Synthesis and spectroscopic studies of Fe3+-doped zinc borate powderReddy, Ch. Venkata; Shim, Jaesool; Byon, Chan, et alARTICLE398 Synthesis and spectroscopic studies of Fe3+-doped zinc borate powder
2014-12Analytic correlation for the capillary pressure of micro-square-pillar arraysHong, Dong-Pyo; Byon, ChanARTICLE341 Analytic correlation for the capillary pressure of micro-square-pillar arrays
2014-11Optimal design method for plate fin heat sinks subject to natural convectionByon, ChanARTICLE291 Optimal design method for plate fin heat sinks subject to natural convection
2014-10Room temperature synthesis and spectral characterizations of Fe3+-doped CdO powderReddy, Ch. Venkata; Shim, Jaesool; Byon, Chan, et alARTICLE459 Room temperature synthesis and spectral characterizations of Fe3+-doped CdO powder
2014-07Semi-Analytic Correlation for Predicting Permeability of Micro-Square-Pillar ArrayHong, Dong-Pyo; Lim, Junyoung; Byon, ChanARTICLE321 Semi-Analytic Correlation for Predicting Permeability of Micro-Square-Pillar Array
2014-07Least Material Optimization of Natural-Convective Heat SinksHong, Dong-Pyo; Lee, Dong-Yeon; Byon, ChanARTICLE374 Least Material Optimization of Natural-Convective Heat Sinks
2014-01Study on the capillary performance of micro-post wicks with non-homogeneous configurationsByon, Chan; Kim, Sung JinARTICLE320 Study on the capillary performance of micro-post wicks with non-homogeneous configurations
2013-12Experimental and numerical study on the capillary performance of non-homogeneous micro-post arraysByon, Chan; Kim, Sung in.ARTICLE365 Experimental and numerical study on the capillary performance of non-homogeneous micro-post arrays
2013-10Critical heat flux of bi-porous sintered copper coatings in FC-72Byon, Chan; Choi, Sunghoon; Kim, Sung JinARTICLE350 Critical heat flux of bi-porous sintered copper coatings in FC-72
2013-06The effect of the particle size distribution and packing structure on the permeability of sintered porous wicksByon, Chan; Kim, Sung JinARTICLE339 The effect of the particle size distribution and packing structure on the permeability of sintered porous wicks
2012-12Effects of geometrical parameters on the boiling limit of bi-porous wicksByon, Chan; Kim, Sung JinARTICLE336 Effects of geometrical parameters on the boiling limit of bi-porous wicks
2012-07Capillary performance of bi-porous sintered metal wicksByon, Chan; Kim, Sung JinARTICLE347 Capillary performance of bi-porous sintered metal wicks
2011-11The effect of meniscus on the permeability of micro-post arraysByon, Chan; Kim, Sung JinARTICLE441 The effect of meniscus on the permeability of micro-post arrays
2011-04Experimental and analytical study on chip hot spot temperatureByon, Chan; Choo, Kyosung; Kim, Sung JinARTICLE353 Experimental and analytical study on chip hot spot temperature
2010-06Fabrication and Characterization of the Capillary Performance of Superhydrophilic Cu Micropost ArraysNam, Youngsuk; Sharratt, Stephen; Byon, Chan, et alARTICLE336 Fabrication and Characterization of the Capillary Performance of Superhydrophilic Cu Micropost Arrays
2010-03Drag reduction in Stokes flows over spheres with nanostructured superhydrophilic surfacesByon, Chan; Nam, Youngsuk; Kim, Sung Jin, et alARTICLE444 Drag reduction in Stokes flows over spheres with nanostructured superhydrophilic surfaces

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