对比分析了用视频显微镜、普通生物显微镜、显微投影仪测试异形截面纤维特征参数的方法和特点。
Three methods and their measurement of characteristic parameters of profiled fiber with video microscopy, microscopy and projection are compared and analyzed.
在聚酯废料生产三角异形涤纶短纤维过程中存在影响纤维截面异形度的因素。
During producing triangular shaped polyester staple fiber from polyester waste, there are some factors that affect the heteroclite dacron fibres.
结果表明:喷丝速度对PAN纤维截面的规整性、表面形貌、异形度、声速取向和致密性等均会产生影响。
The results showed that the extrusion speed had effects on the irregularity of cross section, surface morphology, profile degree, sonic orientation and compactness of PAN fiber.
用分类方法比较不同截面异形纤维的吸湿排汗效果。
The moisture management of fabrics containing different cross-section fiber are also compared.
通过试验,分析了异形纤维的截面形状对织物导湿快干性能的影响。
By experiments, it analysed the influence of cross sections of profile fiber on the properties of moisture-transfer and dry-fast.
研究了纺丝温度、压力、牵伸速度对纤维异形度和当量直径的影响,确立了异型截面碳化硅纤维的制备工艺。
The effects of spinning temperature, spinning pressure and drawing velocity on the degree of profile and effective diameter of the fibers were studied and the preparation technology was determined.
介绍一种异形截面碳纤维,并对其环氧复合材料的力学性能进行研究。
A kind of irregular section carbon fiber and its epoxy composite were involved.
在聚酯废料生产三角异形涤纶短纤维过程中对影响纤维截面异形度的主要因素:喷丝孔截面形状、纺丝温度、冷却成形条件、后欠伸工艺参数等进行探讨。
During the process of spinning triangular heteroclite dacron fibres from polyester garbage, there are factors that may affect the hetercliteness of the intersecting surface of the fibres thus spun.
功能性涤纶纤维是由普通涤纶纤维经过必要的改性而制成的,如异形截面涤纶纤维,具有良好的吸湿导湿性能。
The functional polyester fiber is made from normal polyester by essential modified, and have good moisture absorption & moisture conductivity, such as profiled polyester fiber.
研究了湿法和于湿法纺制异形聚丙烯腈(PAN)纤维过程中拉伸对纤维截面形状的影响。
The effect of stretch on the cross-section shape of polyacrylonitrile (PAIN) fiber was studied during the process of wet spinning and dry wet spinning.
研究了湿法和于湿法纺制异形聚丙烯腈(PAN)纤维过程中拉伸对纤维截面形状的影响。
The effect of stretch on the cross-section shape of polyacrylonitrile (PAIN) fiber was studied during the process of wet spinning and dry wet spinning.
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