Curved squeeze film with inertial effects — energy integral approach
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Cites background or methods from "Curved squeeze film with inertial e..."
...Thus, Flanigan and Shull (1999) used a hemispherical indenter to measure the adhesive and elastic properties of thin gel layers, and Cua and Shaw (2002, 2004) measured the viscosity of HDPE melts squeezed between a plano-convex lens and an optical flat....
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...Although most workers use parallel-plate tools with typically millimetric separation, non-planar SF geometries have received considerable study (Hasegawa 1985; Phan-Thien and Zheng 1991; Dong Chen 1993; Rodin 1996; Hoffner et al. 2001; Huang et al. 2002; Lian et al. 2001; Usha and Vimila 2002; Matsoukas and Mitsoulis 2003), but they have been little-used experimentally....
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Cites methods from "Curved squeeze film with inertial e..."
...[10] R. Usha and P. Vimala, Curved squeeze film with inertial effects-energy integral approach....
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...With sinusoidal squeeze motion, Usha and Vimala [10] have applied the energy integral approach to find the behavior of curved squeeze film bearing using a Newtonian lubricant....
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...The effects of fluid inertia forces and non-Newtonian characteristics of lubricants in the squeeze film bearings have been examined by several investigators, (Tichy and Winer [8], Covey and Stanmore [2], Gartling and Phan-Thien [4], Donovan and Tanner [7], Huang et al. [6], Usha and Vimala [9]) but there are few papers attempting to describe the combined effects of fluid inertia forces and non-Newtonian characteristics of lubricants (Elkough [3], Batra and Kandasamy [1]) ....
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...[9] R. Usha and P. Vimala, Inertia effects in circular squeeze films containing a central air bubble....
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References
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