纺织学报 ›› 2023, Vol. 44 ›› Issue (11): 61-66.doi: 10.13475/j.fzxb.20220706801

• 纺织工程 • 上一篇    下一篇

特种玄武岩缝纫线的制备工艺及其性能

骆春旭1, 龚浩然1, 吴敏勇2, 黄丛3, 刘可帅1()   

  1. 1.武汉纺织大学 省部共建纺织新材料与先进加工技术国家重点实验室, 湖北 武汉 430200
    2.汇尔杰新材料科技股份有限公司, 湖北 襄阳 441102
    3.中国航天科工集团空间工程总体部, 北京 100854
  • 收稿日期:2022-07-19 修回日期:2023-02-13 出版日期:2023-11-15 发布日期:2023-12-25
  • 通讯作者: 刘可帅(1989—),男,副教授,博士。主要研究方向为特种功能纺织品。E-mail:1141552467@qq.com
  • 作者简介:骆春旭(1995—),女,硕士生。主要研究方向为新型纺纱技术。
  • 基金资助:
    国家自然科学基金项目(52203373)

Preparation and properties of special basalt sewing threads

LUO Chunxu1, GONG Haoran1, WU Minyong2, HUANG Cong3, LIU Keshuai1()   

  1. 1. State Key Laboratory of New Textile Materials and Advanced Processing Technologies, Wuhan Textile University, Wuhan, Hubei 430200, China
    2. Huierjie New Material Technology Co., Ltd., Xiangyang, Hubei 441102, China
    3. China Aerospace Science and Industry Corporation Space Engineering General Department, Beijing 100854, China
  • Received:2022-07-19 Revised:2023-02-13 Published:2023-11-15 Online:2023-12-25

摘要:

为制备具有高强、高模、耐化学腐蚀以及抗原子氧等性能的玄武岩高性能缝纫线,利用空心锭包覆纺纱机构,选用聚酰胺长丝为外包覆纱,对双股无捻玄武岩长丝进行双向包覆,研究不同捻度、不同线密度外包覆纱对其拉伸断裂强力及耐磨性能的影响,并分析了包覆纱断裂形貌。结果表明:所纺制的包覆纱强力相较芯丝均有提高,断裂强力提升23%~29%;在一定捻度变化区间内,捻度的增加会使包覆纱断裂强力呈现先升高后降低的趋势,使耐磨程度呈现先减弱后增强的趋势,且在650 捻/m时断裂强力最高;不同线密度外包覆纱对芯纱有不同的赋强作用,线密度越大成纱强力越高;芯纱拉伸断裂形态通常为2种,即在表面包覆间距处出现不同程度凸起或呈原纤化劈裂。

关键词: 玄武岩长丝, 包覆纱, 空心锭, 捻度, 断裂强力, 聚酰胺长丝

Abstract:

Objective As one of the most widely used inorganic fiber, basalt fiber has the advantage of high strength, high modulus, excellent chemical corrosion resistance and anti-atomic oxygen properties. Thus,it can be used as a high-temperature resistant sewing thread material in aviation and military industries. However, its high brittleness and poor-wear resistance strongly restrict the processibility and final application of basalt fiber. In order to prepare basalt fiber based high-performance sewing threads, polyamide filaments were introduced to incorporate with basalt fiber for fabricating composites yarns.

Method Using a hollow spindle covering spinning mechanism, the polyamide filament yarn was used as the sheath to coat the double-stranded basalt filament yarn in both directions. In this case, the basalt core yarn was arranged vertically in the coating yarn and was coated by the outer polyamide filament. The outer coating yarn not only contributed to the strength but also provided strong wear-resistance, laying the foundation for the preparation of excellent sewing threads with both flexibility and high strength properties.

Results The overall strength of all five different double-coated yarns was increased over the core basalt yarn by about 23% to 29%. The basalt core yarn was axially arranged in the composite yarn retaining the core yarn strength, while the outer coating yarn also contributed to the strength resulting in enhanced strength of the composite yarn. The breaking force maximized when the wrapping twist was 650 twists/m (Tab. 2). At this twist, the yarn exhibited the highest breaking elongation, indicating that the yarn has good flexibility. When the twist increased to 750 twists/m, the breaking strength of the yarn decreased sharply by 3.20 cN/tex. The strength variations of three different yarn densities were compared by selecting the optimal strength at 650 twists/m (Tab. 3). It showed that the higher the density of the composite yarn, the higher the strength of the yarn. The coated yarn of 16.7 tex in this research had the highest break strength. The variation of twist of the composite yarn showed that the increase of twist would lead to the increase of coating density (Fig. 3). The three-dimensional microscopic fracture morphology indicated that the surface core yarns showed different magnitudes of protrusion at the wrapping spacing, and the core yarns broke into splits after a fracture. The results of the wear-resistance tests shown that at 650 twists/m the yarn has the smallest coefficient of variation (Tab. 4). The core yarn was protected by the sheath, and the low-twist sheath yarn also demonstrated strong wear-resistance in the test.

Conclusion As the twist increases, the composite yarn strength firstly increases and then decreases, and the higher the density of the outer yarn, the higher the yarn strength. The spiral coating structure of the outer yarn provides axial force in the radial direction and increases the clamping force. Continuously increasing the twist, the angle between the two-way sheath increases as well, causing smaller spacing between coating sheath strands, higher yarn density, but lower axial strength of the composite yarn. Further increase in twist could lead to lower strength because the core yarn can be damaged by too tight hold. The degree of wear-resistance tends to weaken and then increase with an increasing twist. At lower twist levels, the polyamide filament spacing is relatively long and the number of abrasion rollers rubbing against the polyamide filament increases. After increasing the twist degree, the pilling phenomenon tends to occur when grinding, and the number of grinding breaks decreases. Continuously increasing the yarn wrapping tightness makes it hold stronger, and the wear-resistance will gradually increase.

Key words: basalt filament, coated yarn, hollow spindle, twist, breaking force, polyamide filament

中图分类号: 

  • TS104.1

图1

包覆纺纱设备结构示意图 1—玄武岩芯纱;2—导纱杆;3—罗拉;4—上空心锭; 5—下空心锭;6—输出罗拉;7—卷绕辊;8—平行纱筒。"

图2

包覆纱理论模型示意图"

表1

聚酰胺长丝拉伸力学性能测试指标"

长丝编号 线密度/tex 断裂强力/N 断裂伸长率/%
1# 5.6 3.48 48.62
2# 11.1 7.46 59.88
3# 16.7 10.99 69.46

表2

不同捻度包覆纱拉伸实验结果"

捻度/
(捻·
m-1)
线密
度/tex
断裂
位移/
mm
断裂
强力/
N
断裂
强度/
(cN·tex-1)
断裂
强力
CV值/%
断裂伸
长率/%
350 302.0 7.25 131.77 43.63 4.07 2.90
450 304.7 7.13 135.78 44.56 4.53 2.85
550 315.0 7.05 141.05 44.78 5.81 2.82
650 318.0 7.43 142.55 44.83 2.73 2.97
750 328.7 7.16 136.85 41.63 5.88 2.86

表3

外包覆纱线密度对包覆纱力学性能的影响"

外包覆纱
线密度/
tex
包覆纱
线密度/
tex
断裂
位移/
mm
断裂
强力/
N
断裂
强度/
(cN·tex-1)
断裂强
力CV
值/%
断裂伸
长率/%
5.6 257.2 6.53 124.34 48.34 5.90 2.61
11.1 281.9 6.81 135.24 47.97 6.48 2.72
16.7 318.0 7.43 142.55 44.83 2.73 2.97

图3

不同捻度包覆纱拉伸前形貌图"

图4

部分包覆纱断裂时芯纱凸起"

图5

部分包覆纱原纤化断裂形态"

图6

不同捻度包覆纱的耐磨性能实验"

表4

不同捻度包覆纱耐磨性能测试结果"

捻度/
(捻·m-1)
摩擦次数 变异
系数/%
最大值 最小值 平均值
350 272 184 233 4.45
450 235 167 201 3.48
550 210 138 177 3.82
650 198 164 179 1.73
750 255 199 224 3.04
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