| The Formation of Nano-Size SiO_2 Thin Film on an Aluminum Plate with Hexamethyldisilazane (HMDSA) and Hexamethyldisiloxane (HMDSO) |
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| 作者姓名: | H.K.Ma E.Zhao K.M.Chung C.L.Yeh |
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| 作者单位: | Dept of Mechanical Engineering,National Taiwan University,Dept of Mechanical Engineering,National Taiwan University,Dept of Mechanical Engineering,National Taiwan University,Dept of Mechanical Engineering,Da-Yeh University,112 Taipei,Taiwan,10764,China,Taipei,Taiwan,10764,China,Taipei,Taiwan,10764,China,Shan-Jeau Rd Dah-Tsuen,Chang-Hwa,Taiwan 51505,China |
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| 基金项目: | This research was funded by the National Science Council (NSC 90-2212-E- 212-015) |
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| 摘 要: | This study is using HMDSA (C6H19NSi2) or HMDSO (C6H18OSi2) vapor into C3H8/air premixed flames to form SiO2 thin film on the surface of an aluminum plate. With the addition of HMDSO or HMDSA to premixed flames, an orange secondary flame or a flame brush appeared and was contributed to the formation of Sio2 particles. Based upon the EDS, XPS and FTIR analysis, it is believed that the synthesized products consist of mainly SiO2 and a small amount of SiO. The pure SiO2 crystal structure, was proved by XRD analysis, which may form from the SiO2 amorphous structure after high temperature (1300C) thermal treatment. The nano-size SiO2 particles, which ranged from 2.5-25 nm, are proved by analysis of the BET and TEM. A 2-D CFD-RC code with 12 reduced chemical reaction mechanism, based upon the SIMPLER procedure, was successfully employed to predict the flame temperature and both of the SiO2 and SiO concentration profiles. Compared with the experimental results, the calculated temperature profiles in the post-fl
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The Formation of Nano-Size SiO_2 Thin Film on an Aluminum Plate with Hexamethyldisilazane (HMDSA) and Hexamethyldisiloxane (HMDSO) |
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| H.K.Ma,E.Zhao,K.M.Chung,C.L.Yeh.The Formation of Nano-Size SiO_2 Thin Film on an Aluminum Plate with Hexamethyldisilazane (HMDSA) and Hexamethyldisiloxane (HMDSO)[J].Journal of Thermal Science,2003(1). |
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| Authors: | HK Ma EZhao CLYeh KM Chung Dept of Mechanical Engineering National Taiwan University Taipei Taiwan China Dept of Mechanical Engineering Da-Yeh University Shan-Jeau Rd Dah-Tsuen Chang-Hwa Taiwan China |
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| Affiliation: | H.K. Ma E.Zhao C.L.Yeh K.M. Chung1. Dept. of Mechanical Engineering,National Taiwan University,Taipei,Taiwan,10764,China2. Dept. of Mechanical Engineering,Da-Yeh University,112.Shan-Jeau Rd.,Dah-Tsuen,Chang-Hwa,Taiwan 51505,China |
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| Abstract: | This study is using HMDSA (C6H19NSi2) or HMDSO (C6H18OSi2) vapor into C3H8/air premixed flames to form SiO2 thin film on the surface of an aluminum plate. With the addition of HMDSO or HMDSA to premixed flames, an orange secondary flame or a flame brush appeared and was contributed to the formation of Sio2 particles. Based upon the EDS, XPS and FTIR analysis, it is believed that the synthesized products consist of mainly SiO2 and a small amount of SiO. The pure SiO2 crystal structure, was proved by XRD analysis, which may form from the SiO2 amorphous structure after high temperature (1300C) thermal treatment. The nano-size SiO2 particles, which ranged from 2.5-25 nm, are proved by analysis of the BET and TEM. A 2-D CFD-RC code with 12 reduced chemical reaction mechanism, based upon the SIMPLER procedure, was successfully employed to predict the flame temperature and both of the SiO2 and SiO concentration profiles. Compared with the experimental results, the calculated temperature profiles in the post-flame region are in good agreement with the measured data and observation phenomena. |
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| Keywords: | nano size thin film SiO2 |
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