DETERMINATION OF TENSION FOR ARAMID AND CARBON YARNS WHILE WEAVING INDUSTRIAL FABRICS

V. Shcherban’, Oksana Kolysko, G. Melnyk, Marijna Kolysko, Y. Shcherban, Ganna Shchutska
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Abstract

Resulting from researches conducted to determine tension for para-aramid, meta-aramid, and carbon multifilament yarns during their contact with the operative parts of the weaving looms as part of the industrial fabrics formation process, we have found out that in threading areas the tension is increasing driven by variation of values of the friction forces in the contact area. It has been proven that tension degree of para-aramid, meta-aramid, and carbon multifilament yarns before industrial fabric formation area is influenced by (1) tension before cylindrical guide surface of an operative part, (2) radius of the cylindrical guide surface curve of the operative part, (3) contact angle between yarns and cylindrical guide surface of an operative part, (4) mechanical, physical and structural properties of para-aramid, metaaramid, and carbon multifilament yarns. It allowed (yet at the initial stage of design of technological process of industrial fabric formation) to determine para-aramid, meta-aramid, and carbon multifilament yarns tension before formation area depending on (1) form of threading line for yarns at the weaving loom, (2) mechanical, physical and structural properties of para-aramid, meta-aramid, and carbon multifilament yarns and industrial fabrics. The paper contains experimental research of interaction of para-aramid, metaaramid, and carbon multifilament yarns and cylindrical guide surfaces of the operative parts of automatic weaving looms. Based on experimental researches regression dependencies have been obtained between para-aramid, meta-aramid, and carbon multifilament yarns tension value after cylindrical guide surfaces of the operative part and (1) tension before cylindrical guide surface of the operative part, (2) radius of the cylindrical guide surface curve of the operative part, (3) contact angle between yarns and cylindrical guide surface of the operative part. Consecutive application of these regression dependencies allows to determine para-aramid, meta-aramid, and carbon multifilament yarns tension before industrial fabrics formation area. Analysis of regression dependencies allowed to find out values of technological parameters when para-aramid, meta-aramid, and carbon multifilament yarns tension before industrial fabrics formation area will be of minimum value. It will allow to minimize tension of para-aramid, metaaramid, and carbon multifilament yarns while manufacturing resulting in (1) yarn breakages reduction, (2) better productivity of weaving looms due to reduced stoppage time, (3) improved quality of manufactured industrial fabrics. Therefore, we can argue that suggested technological solutions are practically attractive. In view of this, it is reasonable to say that it is possible to directionally regulate the process of para-aramid, meta-aramid, and carbon multifilament yarns tension change while manufacturing industrial fabrics on the weaving looms through selection of values of guides’ geometrical parameters.
织造工业织物时芳纶和碳纱张力的测定
在工业织物成型过程中,对对芳纶、间位芳纶和碳复合长丝纱线与织机操作部件接触时的张力进行了研究,发现在穿线区域,张力随着接触区域摩擦力值的变化而增加。研究表明,对芳纶、间位芳纶和碳复合长丝纱线在工业织物形成区域前的张力程度受以下因素的影响:(1)作用部分圆柱导向面前的张力,(2)作用部分圆柱导向面曲线半径,(3)纱线与作用部分圆柱导向面接触角,(4)对芳纶、间位芳纶和碳复合长丝纱线的力学、物理和结构性能。它允许(但在工业织物成型工艺设计的初始阶段)根据(1)织布机上纱线的穿线形式,(2)对芳纶、间位芳纶和碳复合长丝和工业织物的机械、物理和结构性能来确定对芳纶、间位芳纶和碳复合长丝纱线在成型前的张力区域。本文对对芳纶、间芳纶和碳复合长丝纱线与自动织布机工作部件圆柱形导轨表面的相互作用进行了实验研究。在实验研究的基础上,得到了对芳纶、间位芳纶和碳复合长丝纱线在手术部位圆柱形导向面后的张力值和(1)手术部位圆柱形导向面前的张力,(2)手术部位圆柱形导向面曲线半径,(3)纱线与手术部位圆柱形导向面接触角之间的回归依赖关系。这些回归依赖关系的连续应用允许在工业织物形成区域之前确定对芳纶,间芳纶和碳多长丝纱线的张力。通过回归相关性分析,可以找出对芳纶、间位芳纶和碳复合长丝在工业织物形成区域前张力最小时的工艺参数值。在生产过程中,它将使对芳纶、间芳纶和碳复合长丝纱线的张力降到最低,从而实现(1)减少纱线破损;(2)由于减少停机时间而提高织布机的生产率;(3)提高生产的工业织物的质量。因此,我们可以说,建议的技术解决方案实际上是有吸引力的。因此,我们有理由认为,在织布机上制造工业织物时,通过导向器几何参数值的选择,可以定向调节对芳纶、间芳纶和碳复合长丝的张力变化过程。
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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