MEASUREMENT OF TEMPERATURE DEPENDENCE OF LUBRICANT VISCOSITY IN NANO GAPS BY FIBER WOBBLING METHOD COMBINED WITH LASER HEATING

机译：光纤摆动法与激光加热相结合测量纳米间隙中润滑剂粘度的温度依赖性

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In order to ensure the performance and durability of highly accurate mechanical systems, it is urgent to establish lubrication technology realized in minute gaps. It has been reported that the mechanical properties of lubricating oil in minute gaps narrowed down to nanometer order are completely different from those in the bulk state, and measurement of these phenomena are indispensable for lubrication design. In this research, in order to elucidate the temperature dependency of lubricant viscosity in nano gaps, we proposed laser heating of lubricating oil in highly sensitive viscosity measurement method developed in our previous study, which we called the fiber wobbling method (FWM). We succeeded in measuring temperature dependence of lubricating oil viscosity in nano gaps.

机译：为了确保高精度机械系统的性能和耐用性，迫切需要建立在微小间隙中实现的润滑技术。据报道，缩小到纳米级的微小间隙中的润滑油的机械性能与本体状态下的润滑油的机械性能完全不同，并且这些现象的测量对于润滑设计是必不可少的。在这项研究中，为了阐明纳米间隙中润滑剂粘度的温度依赖性，我们提出了在我们先前研究中开发的高灵敏度粘度测量方法中对激光进行激光加热，我们将其称为纤维摆动法（FWM）。我们成功地测量了纳米间隙中润滑油粘度的温度依赖性。

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来源
《Proceedings of the ASME/JSME joint international conference on information storage and processing systems and micromechatronics for information and precision equipment 2018》|2018年|129-131|共3页
会议地点 San Francisco(US)
作者
Shintaro Itoh; Kenji Fukuzawa; Kento Kamiya; Hedong Zhang;
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作者单位

Department of Micro-Nano Mechanical Science and Engineering, Nagoya University Nagoya, Aichi, Japan;

Department of Micro-Nano Mechanical Science and Engineering, Nagoya University Nagoya, Aichi, Japan;

Department of Micro-Nano Mechanical Science and Engineering, Nagoya University Nagoya, Aichi, Japan;

Department of Complex Systems Science Nagoya University Nagoya, Aichi, Japan;

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入库时间 2022-08-26 14:32:20

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1. Fiber Wobbling Method for Dynamic Viscoelastic Measurement of Liquid Lubricant Confined in Molecularly Narrow Gaps [J] . Shintaro Itoh, Kenji Fukuzawa, Yuya Hamamoto, Tribology letters . 2008,第3期

机译：动态粘弹性测量局限在分子间隙中的液体润滑剂的纤维摆动法
2. Fiber Wobbling Method for Dynamic Viscoelastic Measurement of Liquid Lubricant Confined in Molecularly Narrow Gaps [J] . Shintaro Itoh, Kenji Fukuzawa, Yuya Hamamoto, Tribology Letters . 2008,第3期

机译：纤维摆动法动态限制分子间隙内液体润滑剂的粘弹性测量
3. High-Speed Friction Measurements for a Molecularly Thin Lubricant Film Using a Fiber Wobbling Method [J] . Itoh S., Fukuzawa K., Imai K., Magnetics, IEEE Transactions on . 2012,第11期

机译：使用纤维摆动法对分子薄的润滑膜进行高速摩擦测量
4. MEASUREMENT OF TEMPERATURE DEPENDENCE OF LUBRICANT VISCOSITY IN NANO GAPS BY FIBER WOBBLING METHOD COMBINED WITH LASER HEATING [C] . Shintaro Itoh, Kenji Fukuzawa, Kento Kamiya, ASME/JSME Joint International Conference on Information Storage and Processing Systems and Micromechatronics for Information and Precision Equipment . 2018

机译：纤维摆动法与激光加热相结合纳米间隙润滑粘度温度依赖性的测量
5. MEASUREMENT OF TEMPERATURE DEPENDENCE OF DIODE LASER WAVELENGTH. [D] . YANG, ROBERT YUAN-CHUN. 1987

机译：二极管激光波长的温度依赖性的测量。
6. Dependence of viscosity of suspensions of ceramic nanopowders in ethyl alcohol on concentration and temperature [O] . Gaweł Żyła, Marian Cholewa, Adam Witek 2012

机译：陶瓷纳米粉在乙醇中的悬浮液粘度对浓度和温度的依赖性
7. Viscosity measurement of lubricant at uniform small gaps by fluorescence correlation spectroscopy with micro-fluidic device [O] . Sho HASEGAWA, Takayuki KIMOTO, Kenji FUKUZAWA, 2020

机译：荧光相关光谱与微流体装置均匀小间隙润滑剂的粘度测量
8. MICRO LUBRICANT TEST METHODS Part IV. Evaporation Loss of Lubricating Greases and Oils, Viscosity of Lubricants at —65°F, and Foaming Characteristics of Crankcase and Aircraft Engine Lubricating Oils [R] . JOHN B. CHRISTIAN 1956

机译：微量润滑剂试验方法第IV部分。润滑脂和油的蒸发损失，-65°F时润滑剂的粘度，以及曲轴箱和飞机发动机润滑油的起泡特性

MEASUREMENT OF TEMPERATURE DEPENDENCE OF LUBRICANT VISCOSITY IN NANO GAPS BY FIBER WOBBLING METHOD COMBINED WITH LASER HEATING

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