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Modified MGL Equation Considering Both Effects of Surface Roughness and Accommodation Coefficient for Ultra-thin Gas Film Lubrication.

机译：考虑了表面粗糙度和调节系数的超薄气膜润滑的修正MGL方程。

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The clearance between the read/write head and the disk surface, which is normally referred to the flying height (FH), should be small and stable as the FH is one of the important components of the headmedia spacing [1-2]. To achieve a higher areal density, the FH of the slider continuously decreases and has been reduced to about 1-2 nm in modern disk drives [3-4]. Under such low spacing, the considerations of gaseous rarefaction effects and roughness effects of the magnetic recording system become more important. By solving modified Reynolds equation, effects of gaseous rarefaction and surface roughness were investigated [5-6]. The influence of surface accommodation coefficient (AC), which determines the behavior of the reflected molecules at the boundary walls, is an important factor to govern the flying characteristics of the air bearing slider [7-8]. By solving modified molecular gas film lubrication (MGL) equation, which governs ultra-thin gas film lubrication problems, effects of surface accommodation were investigated [9-10]. However, most of the published work considered gaseous rarefaction effects with either surface roughness effects or surface accommodation effects.

机译：读/写磁头与磁盘表面之间的间隙（通常称为浮动高度（FH））应小而稳定，因为FH是磁头介质间距的重要组成部分之一[1-2]。为了获得更高的面密度，滑块的FH不断降低，在现代磁盘驱动器中已降低到1-2 nm [3-4]。在如此小的间距下，考虑气体记录作用和磁记录系统的粗糙度影响变得更加重要。通过求解修正的雷诺方程，研究了气态稀疏度和表面粗糙度的影响[5-6]。表面调节系数（AC）的影响决定了边界壁处反射分子的行为，是控制空气轴承滑块飞行特性的重要因素[7-8]。通过解决控制超薄气膜润滑问题的改进分子气膜润滑（MGL）方程，研究了表面调节的效果[9-10]。但是，大多数已发表的工作都认为气体稀疏效应具有表面粗糙度效应或表面调节效应。

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《IEEE International Magnetics Conference》|2018年|1-2|共2页
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B. Shi; K. Guo; Y. Feng;
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Magnetics; Conferences;

机译：磁性;会议;

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专利

1. Coupled Effects of Surface Roughness and Accommodation Coefficient for Ultra-Thin Gas Film Lubrication [J] . Bao-Jun Shi, Kai Guo, Ya-Ru Sun, IEEE Transactions on Magnetics . 2018,第11期

机译：超薄气膜润滑的表面粗糙度和调节系数的耦合效应
2. Thermo-molecular gas-film lubrication (t-MGL) considering temperature distributions and accommodation coefficients: analyses by quasi-free-molecular t-MGL equation [J] . Fukui Shigehisa, Shinohara Fumiya, Asada Ryota, Microsystem technologies . 2020,第1期

机译：考虑温度分布和容纳系数的热分子气体膜润滑（T-MGL）：通过准分子T-MGL方程分析
3. Roughness effects on the dynamic coefficients of ultra-thin gas film in magnetic recording [J] . Wang-Long Li, Cheng-I Weng, Chi-Chuan Hwang Journal of Tribology . 1996,第4期

机译：粗糙度对磁记录中超薄气膜动态系数的影响
4. Modified MGL Equation Considering Both Effects of Surface Roughness and Accommodation Coefficient for Ultra-thin Gas Film Lubrication. [C] . B. Shi, K. Guo, Y. Feng International Magnetics Conference . 2018

机译：考虑到表面粗糙度和容纳系数对超薄气膜润滑的影响的改进的MGL方程。
5. Characterization of biofilm surfaces: Morphology, roughness, friction coefficient, spring constant, hydrophobicity and charge. [D] . Huang, Zhen. 2010

机译：生物膜表面的表征：形态，粗糙度，摩擦系数，弹性常数，疏水性和电荷。
6. Tailoring of Seebeck coefficient with surface roughness effects in silicon sub-50-nm films [O] . Manoj Kumar, Anjana Bagga, S Neeleshwar 2012

机译：在表面小于50nm的硅膜中根据表面粗糙度效应定制塞贝克系数
7. Analysis of ultra-thin gas film lubrication based on the linearized Boltzmann equation. Influence of accommodation coefficient. [O] . Shigehisa FUKUI, Reizo KANEKO 1987

机译：基于线性化Boltzmann方程的超薄气膜润滑分析。容纳系数的影响。

Modified MGL Equation Considering Both Effects of Surface Roughness and Accommodation Coefficient for Ultra-thin Gas Film Lubrication.

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