1957
DOI: 10.1080/19447025708660100
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27—fibre Motion in Roller Drafting

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Cited by 10 publications
(5 citation statements)
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“…By replacing the contact area component in equation (2) with the corresponding JKR component, the friction force at the point of contact between with adhesion can be obtained:…”
Section: Design Of Bottom Pinsmentioning
confidence: 99%
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“…By replacing the contact area component in equation (2) with the corresponding JKR component, the friction force at the point of contact between with adhesion can be obtained:…”
Section: Design Of Bottom Pinsmentioning
confidence: 99%
“…Among them, Dogu 1 elaborated the theoretical calculation of the drafting force in a rollerdrafting process and pointed out that there is a strong correlation between the magnitude and variation of the drafting force and the yarn uniformity. Goto et al 2 and McVittie and De Barr 3 focused on the fiber motion by investigating the accelerated point distribution, which reflected the movement of fiber bundles that has an impact on the sliver irregularity. Essentially, the fiber movement in the main drafting zone is influenced by surrounding forces, and the distribution of the forces is related to the characteristics of fibers, the distribution of the number of fibers and the friction field.…”
mentioning
confidence: 99%
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“…The wavelength distributions of these disturbances usually have local maxima, and the local central tendencies are related to the length characteristics of the fiber and the draft involved. Classical theory [ 1,3,4,5] held that the fiber length was one of the most important determinants of the problem, and many writings have assumed that the length distribution of the fiber involved is constant. In fact it is quite variable [8,9] in many respects.…”
Section: Drafting Wavesmentioning
confidence: 99%
“…For many years, the motion of floating fibers during drafting has been the subject of considerable theoretical work directed toward determining the effect of assumed fiber motions on the drafted sliver with the aim of controlling the floating fibers effectively and to improve the sliver regularity. 4,[7][8][9][10][11][12][13] Foster 14 suggested that a complete theory of fiber motion that would explain the forces acting between the fibers in terms of the arrangement and distribution of the fibers in the drafting zone, and the motion of the fibers in terms of the forces. Yan and coworkers 15 expressed the condition of the fiber acceleration in a probabilistic form regarding the condition in which the drafting forces are greater than the control forces and concluded that the distribution function principle could be used to give the overall variance of the accelerated points.…”
mentioning
confidence: 99%