共查询到18条相似文献,搜索用时 703 毫秒
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为了解PTT/PET三维卷曲复合丝及其不同织物参数对织物拉伸性能的影响,通过改变PTT/PET复合丝比例、捻度、织物组织和纬密4个参数织造了33种织物,测试并分析了这些织物的拉伸性能指标。研究发现:PTT/PET双组分长丝织物拉伸断裂强力较低,而断裂伸长较高,低负荷条件下织物具有高伸长特性;在相同的条件下,随着纬纱PTT/PET含量提高,断裂强力呈下降趋势而断裂伸长相应提高,纬密主要影响织物拉伸断裂强力,对断裂伸长的影响不大,PTT/PET复合丝的捻度对低负荷条件下织物拉伸性能影响明显,因织物组织不同其拉伸性能也存在一定差异。 相似文献
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为了研究纬向弹力交织物的弹性回复性问题,选取聚对苯二甲酸丙二酯(PTT)及弹力复合纤维(T400)2种弹力纱线作为纬纱,设计开发了8种纬向弹力交织物,测试分析织物的力学性能、定伸长反复拉伸弹性及定负荷反复拉伸弹性,并采用模糊物元综合评价方法分析织物的弹性综合性能.结果表明:涤纶/PTT及涤纶/T400交织物均属纬向高弹织物,且涤纶/T400交织物的断裂强力及断裂伸长率优于涤纶/PTT交织物;在纬向定伸长反复拉伸及定负荷反复拉伸作用下,涤纶/T400交织物的弹性回复率高于涤纶/PTT交织物,而塑性变形率低于涤纶/PTT交织物;弹性综合性能最佳的品种为试样6#,即经纱为24 tex×2的涤纶股线,纬纱为8.3 tex/(32 f)的T400长丝,采用斜纹组织制得. 相似文献
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金玉燕 《国外纺织技术(纺织针织服装化纤染整)》1980,(18)
美国专利4,134,433号是一种捷克Oldrich Hora(?)ek 等人发明的形成针织—机织联合织物布边组织的装置。针织—机织联合织物由纬纱形成的线圈组成经编组织,并在各线圈纵行之间配置着多根经纱与纬纱交织成机织物结构。此种织物的布边(见图1)由一根纬纱8′和一根边缘纬纱8″组成,其边缘纵行由纬纱线圈32a,边缘纬纱线圈33a和锁紧纱线圈34a 相互串套而成。 相似文献
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主要研究分析了3种用芯皮结构纬纱织造的平纹织物风格特征.3种不同的纬纱分别是芯皮均为粘纤,水溶性PVA作皮、粘胶无捻纱条作芯,PVA无捻纱条作芯、粘纤作皮.3种纱均在DREF-Ⅲ型摩擦纺纱机上按芯皮50/50比例纺成,经纱统一采用2合股纯棉纱线.将3种纬纱分别织成织物,然后用热水将PVA溶解去除.织物性能的测定结果为:织物性能与组成织物的纱线组分性能并不一致.无捻芯纱(溶掉PVA表皮)织物具有较高的拉伸强力、撕裂强力、折皱回复性和耐磨性;而空心纱(溶掉PVA作芯)织物具有丰满、蓬松的结构和良好的耐压缩性能. 相似文献
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研究分析了3种用Dref3摩擦纺多组分纬纱织造的平纹织物的风格特征。3种不同的纬纱是:芯皮均为粘纤;水溶性PVA作皮,粘胶无捻纱条作芯;PVA无捻纱条作芯,粘纤作皮。3种纱均在Dref3型摩擦纺机上按芯皮50/50比例纺成,经纱统一采用2合股纯棉纱线。将3种纱分别织成织物,然后用热水将PVA溶解去除。织物性能的测定结果:织物性能与组成织物的纱组分性能并不一致。无捻芯纱(溶掉PVA表皮)织物具有较高的拉伸强力、撕裂强力、折皱回复性和耐磨性;而空心纱(溶掉PVA作芯)织物具有丰满、蓬松的结构和良好的耐压缩性能。 相似文献
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针对短纤纱经编生产强力低、毛羽多、延伸小、捻度大以及成本高等问题,总结了短纤纱经编生产中的整经技术、高速生产技术、清洁生产技术、智能生产技术和全成形经编生产技术的发展及生产应用。通过梳理经编用短纤纱成纱质量要求,包括纱线断裂强度、表面毛羽和延伸性能等,进一步分析了短纤纱经编整经技术、短纤纱经编织造技术存在的问题和解决方法。通过介绍短纤纱经编产品在衬衫面料、内衣面料、裤料、蕾丝面料领域的应用现状以及生产情况,对短纤纱经编技术未来发展方向进行展望,指出了短纤纱经编生产技术将持续向特色化、高档化和功能化方向发展。 相似文献
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设计了几种代表性织物组织结构的不锈钢纤维混纺针织物,研究了织物组织结构对针织物电磁屏蔽效能的影响。织物组织结构选择充满系数较高的双罗纹组织、打鸡双面组织、添纱衬垫组织、衬纬组织和绕经组织,以降低织物厚度、密度、孔隙等因素对织物电磁屏蔽效能的影响。对所有织物进行了电磁屏蔽效能测试,结果显示:双罗纹织物、双面织物、添纱衬垫织物、衬纬织物的电磁屏蔽效能都很不理想,且远远低于含不锈钢纤维机织平纹布,但是绕经织物的电磁屏蔽效能要比其他组织的针织物的屏蔽效能高得多,基本能达到国标上对屏蔽服的屏蔽效能要求。绕经织物与其他几种针织物最大的不同就是在纵向多了一些连续的含不锈钢纤维的混纺纱。说明针织物组织结构是影响电磁屏蔽效能的关键因素,可通过在织物纵横向形成纵横交错的导通的金属网栅的方式来改善不锈钢纤维混纺针织物的屏蔽效能。 相似文献
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为解决多毛羽传统环锭纱针织困难,而光洁的常规集聚纺纱线织物手感硬的技术难题,建立串联半开放式多重集聚纺纱方法,分析多重集聚纺纱机制和结构成形特征。理论分析结果表明,多重集聚纺纱线具有外紧而内柔的结构特征。基于理论解析,在相同工艺条件下,分别采用传统环锭、常规集聚和多重集聚纱线制成针织面料,对比分析了各针织物压缩回弹、透气、抗起毛起球、耐磨、染色等性能。测试结果表明:与传统环锭纱相比,多重集聚纱线针织物耐磨、透气性、抗起毛起球性改善;与常规集聚纱线相比,多重集聚纱线针织物悬垂性、压缩回弹性和染色性能明显提高。 相似文献
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In this paper, a co‐woven knitted (CWK) structure for composite reinforcement is presented. Based on the experimental observations, its unit cell and representative volume element (RVE) geometries were identified along with the idealized cross‐sectional shapes of the weft, warp and stitch yarns. A geometrical model for the RVE was proposed and the mathematical equations were derived to describe the relationships between the geometrical parameters and process variables. The model was verified with the experimental data and good agreements were obtained between the calculations and measurements of different yarn lengths in a RVE. The inserted and stitch fiber volume fractions as well as total fiber volume fraction were calculated and their variations with the stitch‐to‐inserted yarn linear density ratio under different fabric tightness factors were discussed. The geometrical model provides a basis for the establishment of process windows for the CWK preforms as well as for the prediction of the mechanical behavior of the CWK‐reinforced composites. 相似文献
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为获得兼具针织和机织牛仔面料优点的新型牛仔面料,从纱线的选择、织造、后整理等方面探讨了仿针织牛仔面料的开发。对比测试了仿针织牛仔面料、针织牛仔面料、纯棉机织牛仔面料等5 种面料的拉伸断裂强力、撕破强力、色牢度等指标,并利用川端织物风格评价系统对牛仔面料的拉伸、剪切、弯曲、压缩、表面摩擦5 项指标进
行织物风格综合分析。结果表明,采用精梳纯棉纱作为经纱,涤纶长丝氨纶包芯纱作为纬纱,选择复合右斜纹组织,经特殊后整理工艺后生产的仿针织牛仔面料经向拉伸断裂强力高达685 N,撕破强力达59 N,粗犷挺括,柔软舒适,弹性和保型性俱佳,克服了针织牛仔面料和机织牛仔面料的风格缺陷。 相似文献
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Licheng Zhu 《纺织学会志》2013,104(10):1459-1467
Accurate measurement of the cross-sectional area of porous fabric is quite important to determine fabric strength. Many models using yarns cross-section were built to calculate the strength of woven and knitted fabrics, and the spaces between fibres in the yarns were always considered to be part of the cross-sectional area. In our previous study, using micro-computed tomography (CT) and reconstructed three-dimensional (3D) images and based on the evaluation of the pore diameter distribution across the thickness direction, a new method was established to accurately determine the fabric ‘surface’ and fabric thickness. In this study, we used this method to calculate the cross-sectional area of fabrics and the resulting fabric stress. Using a plain weave and a flat knit fabrics showed that the cross-sectional areas in warp (or wale) and weft (or course) directions of the fabrics change regularly based on fabric structures and yarns. The fabric stress, when calculations were based on the least cross-sectional area, were greater than that calculated based on the other methods, such as the stress calculated based on the Peirce yarn model, where yarns are regarded as solid cylinders. Other research and properties related to the fabric thickness and cross-sectional areas will benefit from this accurate determination. 相似文献