Enhanced viscoelasticity of polyalphaolefins confined and sheared in submicron-to-nanometer-sized gap range and its dependence on shear rate and temperature

Itoh Shintaro; Ohta Yuya; Fukuzawa Kenji; Zhang Hedong

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Enhanced viscoelasticity of polyalphaolefins confined and sheared in submicron-to-nanometer-sized gap range and its dependence on shear rate and temperature

机译：增强亚氨基烯烃的粘弹性，在亚微米到纳米尺寸的间隙范围内窥探和剪切，依赖于剪切速率和温度

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摘要

The viscoelasticity of polyalphaolefins confined and sheared in a submicron-to-nanometer-sized gap range was measured. A continuous transition from bulk viscosity to confined viscoelasticity was observed in this gap range. The viscosity increased when the gap was less than around 100 nm, whereas the elasticity rapidly increased when the gap was less than 10 nm. The shear rate and temperature dependence of the unique viscoelasticity was also measured in the confined state. The enhanced viscosity decreased as the shear rate and the temperature increased. These findings are expected to improve the basic understanding of hydrodynamic lubrication design in narrow gaps widths.

机译：测量聚亚氨基烯烃在亚微米到纳米尺寸的间隙范围内的聚丙烯烯烃的粘弹性。在该间隙范围内观察到从体粘度与狭窄的粘弹性的连续转变。当间隙小于100nm时，粘度增加，而当间隙小于10nm时，弹性迅速增加。在狭窄状态下也测量了独特的粘弹性的剪切速率和温度依赖性。随着剪切速率和温度增加，增强的粘度降低。预计这些调查结果将在窄间隙宽度中提高对流体动力润滑设计的基本理解。

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来源
《Tribology International》 |2018年第2018期|共8页
作者
Itoh Shintaro; Ohta Yuya; Fukuzawa Kenji; Zhang Hedong;
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作者单位

Nagoya Univ Dept Micronano Mech Sci &

Engn Chikusa Ku Furo Cho Nagoya Aichi 4648603 Japan;

Nagoya Univ Dept Micronano Mech Sci &

Engn Chikusa Ku Furo Cho Nagoya Aichi 4648603 Japan;

Nagoya Univ Dept Micronano Mech Sci &

Engn Chikusa Ku Furo Cho Nagoya Aichi 4648603 Japan;

Nagoya Univ Dept Complex Syst Sci Chikusa Ku Furo Cho Nagoya Aichi 4648601 Japan;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Micro-/nano-scale friction; Lubrication oil; Rheology; Measurement;

机译：微/纳米级摩擦;润滑油;流变学;测量;

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1. Enhanced viscoelasticity of polyalphaolefins confined and sheared in submicron-to-nanometer-sized gap range and its dependence on shear rate and temperature [J] . Itoh Shintaro, Ohta Yuya, Fukuzawa Kenji, Tribology International . 2018,第期

机译：增强亚氨基烯烃的粘弹性，在亚微米到纳米尺寸的间隙范围内窥探和剪切，依赖于剪切速率和温度
2. In-situ synchrotron X-ray studies of crystallization of beta-nucleated iPP subjected to a wide range of shear rates and shear temperatures [J] . Chen J., Schneider K., Gao S., Polymer: The International Journal for the Science and Technology of Polymers . 2015,第Null期

机译：β形核iPP的结晶在不同剪切速率和剪切温度下的原位同步X射线研究
3. Effects of shear rate and temperature on viscosity of alumina polyalphaolefins nanofluids [J] . Sheng-Qi Zhou, Rui Ni, Denis Funfschilling Journal of Applied Physics . 2010,第5期

机译：剪切速率和温度对氧化铝聚α-烯烃纳米流体粘度的影响
4. TEMPERATURE DEPENDENCE OF VISCOELASTICITY OF PFPE LUBRICANT CONFINED IN NANOMETER-SIZED GAPS [C] . STLE/ASME international joint tribology conference . 2009

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5. Temperature dependence of the piezoelectric shear coefficient of PMN-PT, LiNbO3 and PZT transducers. [D] . Bukhari, Syed Asad Manzoor. 2014

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6. Experimental Measurement of Settling Velocity of Spherical Particles in Unconfined and Confined Surfactant-based Shear Thinning Viscoelastic Fluids [O] . Sahil Malhotra, Mukul M. Sharma 2014

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7. Deformation and break-up of viscoelastic droplets in confined shear flow [O] . A. Gupta, M. Sbragaglia 2016

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8. Directional Viscoelastic Properties of the Pittsburgh Coal at Elevated Temperatures in Compression and Shear [R] . Shoemaker, H. D., Shuck, L. Z., Haynes, R. R., 1976

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Enhanced viscoelasticity of polyalphaolefins confined and sheared in submicron-to-nanometer-sized gap range and its dependence on shear rate and temperature

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