并列型PA 6/PET复合扁平纤维挤出成形工艺的数值模拟

Numerical simulation of extrusion-forming process of side-by-side PA 6/PET composite flat fiber

以聚酰胺6(PA 6)和聚对苯二甲酸乙二醇酯(PET)两种聚合物为原料,利用Polyflow软件建立并列型PA 6/PET复合扁平纤维挤出成形的模型,模拟在不同流量、不同纺丝温度下纤维挤出成形的过程,分析在此过程中纤维横截面形状系数及丝条温度的变化情况。结果表明:在复合扁平纤维纺丝中,两种流体入口流量比的变化会引起共挤出界面位置和形状的变化;PA 6/PET复合扁平纤维形状系数随着PA 6∶PET流量比的增大而减小,随着总流量的增加而增大,而丝条温度降低的趋势变缓;复合扁平纤维的形状系数随着纺丝温度升高而降低。

A model for simulating the extrusion-forming process of side-by-side polycaprolactam （ PA 6 ）/polyethylene tereph-thalate （ PET） composite flat fiber was established by using PA 6 and PET as raw material under different flow and spinning temperature with a Polyflow software .The change of the cross section shape coefficient and tow temperature was analyzed during the process of extrusion formation .The results showed that the variation of the flow ratio of PA 6 and PET at the inlet would result in the change of extrusion interface position and shape during composite spinning process ;the shape coefficient of PA 6/PET composite flat fiber was decreased with the increase of the flow ratio of PA 6 and PET and was increased with the increase of the total flow, but the fiber temperature was decreased more and more slowly with the increase of the total flow ;and the shape coefficient of the composite flat fiber was also decreased with the increase of spinning temperature .