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Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a W...

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Zeitschriftentitel: Micromachines
Personen und Körperschaften: Chen, Dianzhong, Liu, Xiaowei, Zhang, Haifeng, Li, Hai, Weng, Rui, Li, Ling, Zhang, Zhongzhao
In: Micromachines, 8, 2017, 7, S. 223
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
author_facet Chen, Dianzhong
Liu, Xiaowei
Zhang, Haifeng
Li, Hai
Weng, Rui
Li, Ling
Zhang, Zhongzhao
Chen, Dianzhong
Liu, Xiaowei
Zhang, Haifeng
Li, Hai
Weng, Rui
Li, Ling
Zhang, Zhongzhao
author Chen, Dianzhong
Liu, Xiaowei
Zhang, Haifeng
Li, Hai
Weng, Rui
Li, Ling
Zhang, Zhongzhao
spellingShingle Chen, Dianzhong
Liu, Xiaowei
Zhang, Haifeng
Li, Hai
Weng, Rui
Li, Ling
Zhang, Zhongzhao
Micromachines
Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
author_sort chen, dianzhong
spelling Chen, Dianzhong Liu, Xiaowei Zhang, Haifeng Li, Hai Weng, Rui Li, Ling Zhang, Zhongzhao 2072-666X MDPI AG Electrical and Electronic Engineering Mechanical Engineering Control and Systems Engineering http://dx.doi.org/10.3390/mi8070223 Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing Micromachines
doi_str_mv 10.3390/mi8070223
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title Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_unstemmed Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_full Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_fullStr Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_full_unstemmed Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_short Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_sort friction reduction for a rotational gyroscope with mechanical support by fabrication of a biomimetic superhydrophobic surface on a ball-disk shaped rotor and the application of a water film bearing
topic Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
url http://dx.doi.org/10.3390/mi8070223
publishDate 2017
physical 223
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author Chen, Dianzhong, Liu, Xiaowei, Zhang, Haifeng, Li, Hai, Weng, Rui, Li, Ling, Zhang, Zhongzhao
author_facet Chen, Dianzhong, Liu, Xiaowei, Zhang, Haifeng, Li, Hai, Weng, Rui, Li, Ling, Zhang, Zhongzhao, Chen, Dianzhong, Liu, Xiaowei, Zhang, Haifeng, Li, Hai, Weng, Rui, Li, Ling, Zhang, Zhongzhao
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spelling Chen, Dianzhong Liu, Xiaowei Zhang, Haifeng Li, Hai Weng, Rui Li, Ling Zhang, Zhongzhao 2072-666X MDPI AG Electrical and Electronic Engineering Mechanical Engineering Control and Systems Engineering http://dx.doi.org/10.3390/mi8070223 Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing Micromachines
spellingShingle Chen, Dianzhong, Liu, Xiaowei, Zhang, Haifeng, Li, Hai, Weng, Rui, Li, Ling, Zhang, Zhongzhao, Micromachines, Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing, Electrical and Electronic Engineering, Mechanical Engineering, Control and Systems Engineering
title Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_full Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_fullStr Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_full_unstemmed Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_short Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
title_sort friction reduction for a rotational gyroscope with mechanical support by fabrication of a biomimetic superhydrophobic surface on a ball-disk shaped rotor and the application of a water film bearing
title_unstemmed Friction Reduction for a Rotational Gyroscope with Mechanical Support by Fabrication of a Biomimetic Superhydrophobic Surface on a Ball-Disk Shaped Rotor and the Application of a Water Film Bearing
topic Electrical and Electronic Engineering, Mechanical Engineering, Control and Systems Engineering
url http://dx.doi.org/10.3390/mi8070223