Air-Drag Coefficient of Polyester Textured Yarns

Sen'i Kikai Gakkaishi (journal of The Textile Machinery Society of Japan) Pub Date : 2002-06-25 DOI:10.4188/TRANSJTMSJ.55.6_T59

Ryuji Sintani, A. Okajima

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引用次数: 1

Abstract

The correspondence to consumer needs and the development of high value added products are required for the textile manufactures. The textile manufacture is obliged to shift to a large variety and small quantity of production. The improvement in efficiency of warp preparation and a quick determination of weaving conditions (air pressure and injection timing) is important to the air jet loom (AJL). In order to obtain basic data for determining quickly the weaving conditions in AJL of the profile reed with sub-nozzles, the air-drag coefficient of eight kinds of polyester textured multi-filament yarn was measured, and the factors which affect the air-drag coefficient of yarn were investigated. The following conclusions were obtained as a result. (1) The air-drag of polyester textured yarns which are 16.5 tex and 33.9 tex with 96 filaments became the largest. (2) Measuring the diameter of polyester textured yarn used in the experiment, the diameter changes with the static loads and approaches to about 1.8 times as long as the equivalent diameter calculated from yarn count. (3) The air-drag coefficient of polyester textured yarns used in the experiment is explained as a function of a Reynolds number.

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涤纶变形纱的空气阻力系数

适应消费者的需求，开发高附加值的产品，是纺织企业发展的必然要求。纺织制造业不得不向品种多、数量少的生产方式转变。对喷气织机来说，提高织经效率和快速确定织造条件(气压和喷射时间)是十分重要的。为了获得快速确定分喷嘴异型筘座AJL织造条件的基础数据，对8种涤纶变形多长丝的空气阻力系数进行了测定，并对影响纱线空气阻力系数的因素进行了研究。结果得出以下结论:(1)涤纶变形丝的空气阻力最大，为16.5 tex和33.9 tex，共96支。(2)测量实验中使用的涤纶变形纱的直径，直径随着静载荷的变化而变化，接近由支数计算出的等效直径的1.8倍左右。(3)实验中使用的涤纶变形纱的空气阻力系数是雷诺数的函数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sen'i Kikai Gakkaishi (journal of The Textile Machinery Society of Japan)

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