共查询到19条相似文献,搜索用时 742 毫秒
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竹纤维Modal纤维与棉纤维混纺纱的开发 总被引:12,自引:7,他引:5
竹纤维是以毛竹为原料 ,经过水分解多次提炼精制而成 ,具有较高的强力和较好的耐磨性 ,其吸湿性、染色性、透气性优良 ,手感柔软光滑。Modal纤维是湿模量高的纤维素纤维 ,既具有棉产品的舒适感 ,又具有粘胶的吸湿悬垂性和涤纶纤维的强力。竹纤维、Modal纤维与棉混纺织物具有吸湿快、透气性能好、滑爽、染色性能好的特点 ,是一种全新的高档服装面料 ,具有广阔的市场发展前景。我公司深入分析研究了竹纤维、Modal纤维的性能特点 ,成功地开发出风格独特的竹纤维 /Modal/棉 2 0 /2 0 /6 0 1 6 .2tex混纺纱。1 原料特性… 相似文献
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用自纺的五种不同混纺比的19.5tex甲壳素/棉混纺纱织成同规格的织物,测定混纺织物的强伸度、pH值、刚柔性、透湿性、透气性、导湿性等,分析混纺比对混纺织物性能的影响。实验结果表明, 10/90甲/棉混纺织物的经纬向强力最大,芯吸性导湿性最好,20/80甲/棉混纺织物的透湿性最好,50/50甲/棉混纺织物的抗弯刚度最大,透气性最好。混纺织物的抗弯刚度和纬向强力及导湿性与混纺比显著相关。从穿着舒适性和纱线织物性能等几方面综合考虑, 20/80的甲/棉混纺织物较实用,而30/70的甲/棉混纺比例各方面性能较差。 相似文献
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本文对柔丝、蛹蛋白、天丝、彩棉等绿色纤维混纺纱进行芯吸性能和吸放湿过程测试,并利用Origin软件对测试结果进行对比,分析研究不同纱线的吸湿性及湿传递性能,以期找出影响纱线吸放湿性能的较为普遍性的规律,并为开发湿舒适性好的绿色服装面料提供依据。结果表明:含再生纤维的混纺纱的芯吸性能较强,尤其含有皮芯结构的蛹蛋白再生纤维的纱线芯吸性能最好,含有50%以上的柔丝纤维的纱线吸放湿能力最强,其回潮率和吸放湿速率都较高。天然棉/彩棉混纺纱的芯吸性很差,并且其回潮率及吸放湿速率都较低。 相似文献
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以28.2 tex纯大豆蛋白复合纤维纱线、大豆蛋白复合纤维与棉混纺纱线(混纺比分别为50:50,25:75)为原料,编织纬平针组织的试样,重点测试织物的折皱性、悬垂性、透湿性、透气性、耐磨性等服用性能,并做详细的对比与分析。结果表明,大豆蛋白复合纤维织物具有更好的悬垂性、透湿性能;折皱性、耐磨性比与棉混纺的织物差;纯大豆蛋白复合纤维织物有良好的穿着舒适性。对于纯大豆蛋白复合纤维织物与大豆蛋白复合纤维与棉混纺织物优缺点的分析,为大豆蛋白复合纤维系列产品的开发提供参考。 相似文献
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摘要:以28.2 tex纯大豆蛋白复合纤维纱线、大豆蛋白复合纤维与棉混纺纱线(混纺比分别为50:50,25:75)为原料,编织纬平针组织的试样,重点测试织物的折皱性、悬垂性、透湿性、透气性、耐磨性等服用性能,并做详细的对比与分析。结果表明,大豆蛋白复合纤维织物具有更好的悬垂性、透湿性能;折皱性、耐磨性比与棉混纺的织物差;纯大豆蛋白复合纤维织物有良好的穿着舒适性。对于纯大豆蛋白复合纤维织物与大豆蛋白复合纤维与棉混纺织物优缺点的分析,为大豆蛋白复合纤维系列产品的开发提供参考。 相似文献
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为研究织物组织结构与复合纱线线密度对织物凉爽性能的影响,将线密度为7.4和9.8 tex涤纶分别与线密度为7.8 tex锦纶反向加捻、并线后作为纬纱,以8.3 tex涤纶/竹浆纤维50/50混纺纱作经纱,设计平纹、二上一下斜纹和透孔组织织物.测试织物的瞬间接触凉感、热湿舒适性能及织物干、湿态升温曲线,并采用凉爽温度指数对织物的综合凉爽性能进行评价.研究结果表明:6种设计织物的瞬间接触凉感均高于标准,且平纹织物最好,纬纱粗细对瞬间接触凉感影响不显著;透孔织物透气性最好,且在人体出汗的状态下具有较好的导湿散热性能.平纹织物凉爽温度指数最高,最大凉爽温度为2.8℃,综合凉爽性能最好. 相似文献
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介绍了导湿的基本理论,并通过对分别用Coolpass、Coolbst、中空涤纶、Coolmax、负氧离子涤纶纱线编织的织物进行导湿性能测试,得出由Coolpass长丝纱线编织的织物导湿性能明显优于其他同类纤维纱线编织的织物.在此基础上,使用竹纤维和Coolpass纤维纱线开发导湿面料,经过测试比较得出,用竹纤维纱线为地纱,Coolpass长丝纱线为面纱编织的织物导湿性能不如纯Coolpass长丝纱线编织的面料.但要好于其他几种纱线搭配组合的面料,由于竹纤维属天然纤维,因此该面料的舒适性更好,适合制作舒适性功能服装. 相似文献
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The physiological comfort determined by air permeability and moisture management properties of fabrics is influenced by various constructional parameters of the fabric which give woven fabric a porous structure. Evaporation of sweat during wear has the potential to cool the body besides restricting the additional weight of sweat being absorbed by the fabric. In this study, comfort characteristics of denim fabrics with different weft yarn of cotton, polyester and core spun Lycra have been discussed. Effect of enzyme washing and repeated laundering on air permeability, moisture management and drying rate has also been discussed. It was observed that air permeability and water vapour permeability of unwashed denim fabrics with cotton weft yarn are significantly higher than the fabric with polyester and Lycra cotton weft yarns. The wetting time is higher for cotton and Lycra cotton yarn fabrics. One-way transport index is highest for Lycra cotton weft fabrics and lowest for fabrics with polyester weft. Fabrics with polyester weft yarns show highest spreading rate, spreading radius and drying rate due to better wicking and hydrophobic nature of polyester fibres. 相似文献
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With the growing demand for more comfortable, healthier and environmentally friendly products, research and development has been increasingly focusing on new environmentally friendly materials and products. One of the environmentally friendly materials is the bamboo fibre with its numerous favourable performing properties. The use of bamboo fibres increases every year, which was the main reason for choosing yarn from the mixture of lyocell fibres and natural bamboo fibres with the ratio 80/20 for the research. With the research, the tensile behaviour of woven fabrics with cotton yarn in warp and lyocell/natural bamboo yarn in the weft direction in comparison with cotton woven fabrics was studied. Twelve fabrics which differed in their construction properties were designed and produced. Two different weaves were chosen, i.e. plain and twill weave, and three different densities in weft. The results of the research show that the presence of lyocell/natural bamboo yarn in the weft direction improves the mechanical properties such as breaking stress, stress in the yield point, elasticity modulus in the weft direction of analysed fabrics, while in the warp direction, the weave type and weave density express a greater influence on the mechanical properties of analysed fabrics. 相似文献
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Spun silk and chitosan fiber were blended to fabricate spun silk/chitosan blended yarn with three blending ratios (90/10 and 80/20 and 70/30) by silk spinning technology. The silk/chitosan blended yarn and pure spun silk were used as warp and weft yarn to design and weave 16 fabrics. The 16 mechanical properties about fabric hand feeling were measured at low stress with KES-FB-AUTO fabric style instrument. Six basic style values (stiffness, flatness, suppleness, fullness, smoothness and scroopy) were calculated by Kawabata formula of women's fine dress fabrics. The results reveal that compared with a pure spun silk fabric, spun silk/chitosan blended fabrics have higher stiffness, flatness, smoothness and scroopy, but lower suppleness, and the fullness differs little. © 2017 China Silk Association. All rights reserved. 相似文献
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为了研究织物结构对热敏变色纤维织物呈色效果的影响,经纱采用棉纱,纬纱选用热敏变色粘胶长丝纱,设计织造了5种不同组织结构的机织物,对其变色前后的颜色空间值、三刺激值、彩度以及白度等颜色指标进行了测试,并分析了织物组织及纬密对热敏变色纤维织物呈色效果的影响及显著性。研究结果表明:织物组织对织物明度、彩度和色相偏红程度影响显著,对白度影响不显著。平纹织物的明度和白度最高,缎纹织物的彩度和色相偏红程度最高;织物纬密对明度影响显著,对彩度、白度、色相偏红程度影响不显著,随着纬密的增加,织物色相偏红程度呈增加趋势。研究结果对热敏变色纤维织物的设计开发具有一定的参考价值。 相似文献