The Steady Slow Motion of a Non-Newtonian Liquid through a Tapered Tube
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概要
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A theory of the steady slow motion of a time-independent non-Newtonian liquid through a tapered tube is presented. The coefficient of viscosity μ which appears in the relationship between the stress and the rate of strain of a Newtonian liquid is assumed to be a function of the velocity gradient. Thus μ is a function of the coordinates of the liquid particles. The equations of motion of a non-Newtonian liquid through a tapered tube have been obtained under the following assumptions: i) the liquid is incompressible; ii) the motion of the liquid is laminar; iii) the motion is steady; iv) no body-force acts on the liquid; v) the motion has an axial symmetry; vi) there is no slip at the wall; vii) the stream-lines are straight lines passing through the vertex of the cone; viii) the motion is so slow that the inertia term can be neglected. The differential equation for the velocity distribution of a non-Newtonian liquid obeying power law has been derived.
- 社団法人応用物理学会の論文
- 1967-04-15
著者
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Oka Syoten
Department Of Physics Faculty Of Science Tokyo Metropolitan University
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TAKAMI Akira
Yamawaki College
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