Polypropylene filaments were employed to wrap the flax yarn. 3 kinds of plain fabrics were woven with identical warp density and various weft density by using the produced yarns.
利用聚丙烯纤维对亚麻纱线进行包缠,使用该纱线织造3种经纱密度相同,纬纱密度不同的平纹织物。
Total density of warp&weft over 200
纱支密度达200针以上
Warp and weft density of fabric is one of the index to measure the quality of fabric.
织物的经纬密度是衡量织物质量的其中的一项指标之一。
The fabrics with ideal weft elasticity can be made by the rational configuration of warp-weft compactness and density, fabric texture, the array mode of warp yarn and process.
只要将经纬紧度、经纬密度、织物组织、丝线排列方式及工艺合理配置,均可形成较为理想的纬向弹力织物。
The results suggest the fabrics texture, the warp and weft density and the twist of yarn have obvious effects on the properties of heat and wet vapour transfer in fabrics.
结果表明,织物组织、经纬线密度和捻度,对织物的热湿移动特性有明显的影响。
By doing some expansion, the influence of phase warp to the combining power density is got, which provides a basis for designing of high-power laser.
并对模型略加扩充,得到相位偏差对相干合成功率密度的影响,为高功率激光器的设计提供依据。
This paper states the factors that can affect medial density fiber-board warp distortion and puts forward relevant countermeasures.
本文论述了影响中密度纤维板翘曲变形的因素,并提出了相关的应对措施。
Thereby proposes a method to classify fabric thickness by means of the mass unit fabric area or the linear density sum of warp and weft.
提出了用织物单位面积质量或经纬丝线密度之和进行织物厚度分类的方法。
The deformation capability affected by the fabric parameters such as warp and weft yarn density is also analyzed based on the parallelogram method.
并采用平行四边形法,分析了经纬纱密度等织物参数对织物变形能力的影响。
The weaving of superfine high density fabric has great difficulty, the demand of warp sizing quality is higher.
特细号高密织物织造难度大,对经纱上浆质量水平要求高。
Moreover, when the thermoelectric elements are arranged with a high density, the force of each of the thermoelectric elements pulled by the substrate warp becomes smaller.
并且,通过将热电元件密配置,使由基板的弯曲而产生的拉伸每一个热电元件的力变小。
Moreover, when the thermoelectric elements are arranged with a high density, the force of each of the thermoelectric elements pulled by the substrate warp becomes smaller.
并且,通过将热电元件密配置,使由基板的弯曲而产生的拉伸每一个热电元件的力变小。
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