An investigation of yarn snarling and balloon flutter instabilities in ring spinning

Z. X. Tang; Xungai Wang; W. B. Fraser; L. Wang

doi:10.1533/joti.2006.0273

An investigation of yarn snarling and balloon flutter instabilities in ring spinning

Z. X. Tang, Xungai Wang, W. B. Fraser, L. Wang

Research output: Journal article publication › Journal article › Academic research › peer-review

8 Citations (Scopus)

Abstract

This article reports theoretical and experimental investigation on yarn snarling and balloon fluttering in ring spinning. Yarn snarling and balloon fluttering affect yarn breakage in ring spinning. The theoretical model has incorporated the tangential component of air drag on a ballooning yarn, which was ignored in previous models. The results show that yarn snarling happens in the balloon when the ratio of yarn length in the balloon to balloon height is greater than a specific value that depends on the yarn type and count. Yarn tension experiences an obvious change before and after yarn snarling. The balloon flutter appears between normal balloons while the balloon loops are changing. Fluttering balloon shapes that oscillate periodically between two and three loop configurations as yarn tension varies periodically have also been observed experimentally.

Original language	English
Pages (from-to)	441-448
Number of pages	8
Journal	Journal of the Textile Institute
Volume	97
Issue number	5
DOIs	https://doi.org/10.1533/joti.2006.0273
Publication status	Published - 2006
Externally published	Yes

Keywords

Air drag
Balloon fluttering
Ring spinning
Yarn balloon
Yarn snarling

ASJC Scopus subject areas

Materials Science (miscellaneous)
General Agricultural and Biological Sciences
Polymers and Plastics
Industrial and Manufacturing Engineering

More information

10.1533/joti.2006.0273

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title = "An investigation of yarn snarling and balloon flutter instabilities in ring spinning",

abstract = "This article reports theoretical and experimental investigation on yarn snarling and balloon fluttering in ring spinning. Yarn snarling and balloon fluttering affect yarn breakage in ring spinning. The theoretical model has incorporated the tangential component of air drag on a ballooning yarn, which was ignored in previous models. The results show that yarn snarling happens in the balloon when the ratio of yarn length in the balloon to balloon height is greater than a specific value that depends on the yarn type and count. Yarn tension experiences an obvious change before and after yarn snarling. The balloon flutter appears between normal balloons while the balloon loops are changing. Fluttering balloon shapes that oscillate periodically between two and three loop configurations as yarn tension varies periodically have also been observed experimentally.",

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T1 - An investigation of yarn snarling and balloon flutter instabilities in ring spinning

AU - Tang, Z. X.

AU - Wang, Xungai

AU - Fraser, W. B.

AU - Wang, L.

PY - 2006

Y1 - 2006

N2 - This article reports theoretical and experimental investigation on yarn snarling and balloon fluttering in ring spinning. Yarn snarling and balloon fluttering affect yarn breakage in ring spinning. The theoretical model has incorporated the tangential component of air drag on a ballooning yarn, which was ignored in previous models. The results show that yarn snarling happens in the balloon when the ratio of yarn length in the balloon to balloon height is greater than a specific value that depends on the yarn type and count. Yarn tension experiences an obvious change before and after yarn snarling. The balloon flutter appears between normal balloons while the balloon loops are changing. Fluttering balloon shapes that oscillate periodically between two and three loop configurations as yarn tension varies periodically have also been observed experimentally.

AB - This article reports theoretical and experimental investigation on yarn snarling and balloon fluttering in ring spinning. Yarn snarling and balloon fluttering affect yarn breakage in ring spinning. The theoretical model has incorporated the tangential component of air drag on a ballooning yarn, which was ignored in previous models. The results show that yarn snarling happens in the balloon when the ratio of yarn length in the balloon to balloon height is greater than a specific value that depends on the yarn type and count. Yarn tension experiences an obvious change before and after yarn snarling. The balloon flutter appears between normal balloons while the balloon loops are changing. Fluttering balloon shapes that oscillate periodically between two and three loop configurations as yarn tension varies periodically have also been observed experimentally.

KW - Air drag

KW - Balloon fluttering

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KW - Yarn balloon

KW - Yarn snarling

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An investigation of yarn snarling and balloon flutter instabilities in ring spinning

Abstract

Keywords

ASJC Scopus subject areas

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