Effect of Pulse-Reverse Current on Microstructure and Properties of Electroformed Nickel–Iron Mold Insert
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概要
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A high-technology approach to the manufacture of microdevices and Ni–Fe films formed by electroforming processes was investigated. The properties of Ni–Fe films were evaluated by stress measurement, transmission electron microscopy (TEM), scanning probe microscopy (SPM) and nanoindentation analysis. Square-wave cathodic current modulation was employed to electrodeposit ultrafine-grained Ni–Fe films from an additive-free Watts bath. The effects of pulse parameters, namely, pulse on-time, pulse off-time and peak-current density on grain size, surface morphology and crystal orientation were determined. Current density significantly influences the microstructure of what. Increasing current density substantially refined the deposited crystals. The crystal size of Ni–Fe films decreased as current density increased. Microstructural modification was accompanied by the corresponding variations in microhardness, current efficiency and hydrogen content. These results are explained by the strong tendency of Ni–Fe to be passivated though the adsorption of foreign species (hydrogen and hydroxide) present during crystallization. However, increasing current density did not affect crystal orientation, indicating that a high pulse-reverse current density inhibits the adsorption of hydrogen species onto Ni–Fe films. Therefore, Ni–Fe films have a low internal stress and a low surface roughness. Current density considerably influences the microstructure of what, revealing that a high pulse-reversed current density inhibits the adsorption of hydrogen species onto Ni–Fe deposits, so that an as-deposited pulse-reversed Ni–Fe alloy has a lower internal stress and a lower surface roughness than a Ni–Fe alloy deposited by direct current density.
- 2005-02-15
著者
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Ou Keng-liang
Graduate Institute Of Biomedical Materials And Engineering Taipei Medical University
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YEH Yih-Min
Institute of Opto-mechatronics and Material Science, Wu Feng Institute of Technology
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TSAI Ming-Hung
Department of Dentistry, En Chu Kong Hospital
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SHYNG Yih-Chuen
Department of Oro-Maxillo-Facial surgery, Kaohsiung Military General Hospital
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Lee Sheng-yang
School Of Dentistry College Of Oral Medicine Taipei Medical University
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Chen Chin-sung
Department Of Dentistry Cathay General Hospital
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Yeh Yih-Min
Institute of Opto-mechatronics and Material Science, Wu Feng Institute of Technology, Chiayi 621, Taiwan, ROC
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Ou Keng-Liang
Graduate Institute of Oral Science, College of Oral Medicine, Taipei Medical University, Taipei 110, Taiwan, ROC
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Lee Sheng-Yang
School of Dentistry, College of Oral Medicine, Taipei Medical University, Taipei 110, Taiwan, ROC
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Chen Chin-Sung
Department of Dentistry, Cathay General Hospital, Taipei 110, Taiwan, ROC
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Tsai Ming-Hung
Department of Dentistry, En Chu Kong Hospital, Taipei Hsien 237, Taiwan, ROC
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Shyng Yih-Chuen
Department of Oro-Maxillo-Facial surgery, Kaohsiung Military General Hospital, Kaohsiung 807, Taiwan, ROC
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