公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2004 | The fluid property dependency on micro-fluidic characteristics in the deposition process for microfabrication | Chau, S.W.; Hsu, K.L.; Chen, S.C.; Liou, T.M.; Shih, K.C.; SHIU-WU CHAU | Biosensors and Bioelectronics | | | |
2007 | Modeling and experimental validation of a 1.2 MW DC transferred well-type plasma torch | Chau, S.W.; Hsu, K.L.; Lin, D.L.; Chen, J.S.; Tzeng, C.C.; SHIU-WU CHAU | Computer Physics Communications | | | |
2011 | Modeling of axis-symmetric steam plasma flow in a non-transferred torch | Chau, S.W.; Lu, S.Y.; Wang, P.J.; SHIU-WU CHAU | Computer Physics Communications | | | |
2017 | Modeling of perfluorocarbons decomposition in nitrogen thermal plasma | Chau, S.W.; Chen, S.H.; SHIU-WU CHAU | 22nd Symposium on Physics of Switching Arc | | | |
2011 | Modeling steady axis-symmetric thermal plasma flow of air by a parallelized magneto-hydrodynamic flow solver | Chau, S.W.; Hsu, K.L.; SHIU-WU CHAU | Computers and Fluids | | | |
2010 | Patterning nanowire and micro-/nanoparticle array on micropillar-structured surface: Experiment and modeling | Lin, C.H.; Guan, J.; Chau, S.W.; Chen, S.C.; Lee, L.J.; SHIU-WU CHAU | Biomicrofluidics | | | |
2007 | Study on the cooling enhancement of LED heat sources via an electrohydrodynamic approach | Chau, S.W.; Lin, C.H.; Yeh, C.H.; Yang, C.; SHIU-WU CHAU | IECON Proceedings (Industrial Electronics Conference) | | | |
2013 | Thin-film deposition modeling of hydrogenated amorphous silicon in the afterglow of argon plasma | Chau, S.W.; Pham, Q.T.; Nguyen, M.N.; SHIU-WU CHAU | Computers and Fluids | | | |
2006 | Three-dimensional simulation of melt filling and gas penetration in gas-assisted injection molding process using a finite volume formulation | Chau, S.W.; Lin, Y.W.; SHIU-WU CHAU | Journal of Polymer Engineering | | | |
2002 | Three-dimensional simulations of the droplet formation during the inkjet printing process | Liou, T.M.; Shih, K.C.; Chau, S.W.; Chen, S.C.; SHIU-WU CHAU | International Communications in Heat and Mass Transfer | | | |