Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions

V. Ya. Rudyak; A. A. Belkin; E A. Tomilina; V V Egorov

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Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions

机译：纳米悬浮液的纳米颗粒摩擦力和有效粘度

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摘要

The transport properties of nanofluids are investigated by the molecular dynamics method. It is shown that the force acting on a nanoparticle is nonstationary, in contrast to the Stokes force. In the initial stage of relaxation, the friction force is greater than the Stokes value. Subsequently, this force decreases and reaches an asymptotic value. This value is comparable to the Stokes force only for a massive particle, A correlation for determining the friction coefficient is constructed. It is established that the effective viscosity coefficient of nanofluids depends not only on the volume concentration of nanoparticles but also on the nanoparticle mass and radius.

机译：通过分子动力学方法研究了纳米流体的传输性质。结果表明，与斯托克斯力相反，作用在纳米颗粒上的力是不稳定的。在松弛的初始阶段，摩擦力大于斯托克斯值。随后，该力减小并达到渐近值。该值仅对于大颗粒才可与斯托克斯力相当。构建了用于确定摩擦系数的相关性。已经确定，纳米流体的有效粘度系数不仅取决于纳米颗粒的体积浓度，而且取决于纳米颗粒的质量和半径。

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《Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum》 |2008年第0期|共6页
作者
V. Ya. Rudyak; A. A. Belkin; E A. Tomilina; V V Egorov;
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正文语种 eng
中图分类分析化学;
关键词
nanofluids; nanoparticle; friction force; effective viscosity coefficient; molecular dynam?ics method;

机译：纳米流体纳米颗粒摩擦力有效粘度系数分子动力学方法;

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1. Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions [J] . V. Ya. Rudyak, A. A. Belkin, E. A. Tomilina, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2008,第Null期

机译：纳米悬浮液的纳米颗粒摩擦力和有效粘度
2. Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions [J] . V. Ya. Rudyak, A. A. Belkin, E A. Tomilina, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2008,第0期

机译：纳米悬浮液的纳米颗粒摩擦力和有效粘度
3. Hydrodynamic force on a microparticle approaching a wall in a nanoparticle dispersion: Observation of a separation-dependent effective viscosity [J] . James G.K., Walz J.Y. Langmuir: The ACS Journal of Surfaces and Colloids . 2012,第1期

机译：纳米粒子分散体中接近壁的微粒上的流体动力：取决于分离的有效粘度的观察
4. Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions [C] . V. Ya. Rudyak, A. A. Belkin, E. A. Tomilina, International Conference on Diffusion in Solids and Liquids, Mass Transfer - Heat Transfer - Microstructure Properties - Nanodiffusion and Nanostructured Materials . 2008

机译：纳米粒子摩擦力和纳米杆菌的有效粘度
5. Polymer Stabilized Nanosuspensions Formed via Flash Nanoprecipitation: Nanoparticle Formation, Formulation, and Stability [D] . Zhu, ZhengXi 2010

机译：通过快速纳米沉淀形成的聚合物稳定的纳米悬浮液：纳米颗粒的形成，配制和稳定性
6. Lateral Force Microscopy of Interfacial Nanobubbles: Friction Reduction and Novel Frictional Behavior [O] . Chih-Wen Yang, Kwan-tai Leung, Ren-Feng Ding, -1

机译：界面纳米气泡的横向力显微镜：减少摩擦和新颖的摩擦行为
7. Comparison of Approximate Methods for Calculating the Friction Coefficient and Intrinsic Viscosity of Nanoparticles and Macromolecules [O] . -1

机译：纳米粒子和大分子摩擦系数和固量粘度计算近似方法的比较
8. Effect of Slip Rate on the Effective Contact Area and Friction Force of Highly Elastic Materials [R] . Bartenev, G. M., Lavrentev, V. V., Konstantinova, N. A. 1969

机译：滑移率对高弹性材料有效接触面积和摩擦力的影响

Nanoparticle Friction Force and Effective Viscosity of Nanosuspensions

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