聚合物共挤过程中双通道进料区的研究

Nurdaulet Sharipkhan, Asma Perveen, Di Chuan Zhang, Dong Ming Wei
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引用次数: 0

摘要

将不同材料组合在一起生产多层产品的工艺称为共挤工艺。在这一工艺中,聚合物在不同的机器中熔化,然后从不同的模槽中挤出。一旦这些通道汇合,聚合物就会相遇并流经一个通道。两种流体面对的表面称为 "界面"。为了获得理想的多层结构,保持界面的均匀性和稳定性至关重要。共挤过程中的大部分问题都与聚合物封装/界面变形和模具膨胀等问题有关,可分为两类。为了解决这些问题,设计人员将重点放在提高界面的稳定性上。本文研究了双通道进料块的横截面修改对界面位置以及流动速度和压力分布的影响。使用 ANSYS 软件模拟了聚合物(LLDPE 和 HDPE)在具有矩形、圆形和直槽横截面的双通道喂料块中的共挤过程。结果表明,尖角会增加死区的厚度,而圆角会减少死区的厚度。此外,与矩形和圆形给料块的结果相比,体育场形(或直槽)横截面通道能以更高的最大速度和更薄的边界层流动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of the Two-Channel Feedblock Zone in Co-Extrusion of Polymers
A process when different materials are combined to produce a product with multiple layers is called co-extrusion. During this process, polymers are melted in separate machines and then extrudate from different die channels. Once these channels converge, the polymers meet and flow through a single channel. The surface where the two fluids face is called “interface”. It is crucial to maintain the interface's uniformity and stability in order to achieve the desired multi-layered structure. Most of the issues in co-extrusion are related to issues that can be classified into two categories such as polymer encapsulation/interfacial distortion and die swell. To solve these problems, designers focus on improving the interface's stability. This paper examines effects of cross-section modification of the two-channel feedblock on the interface location and velocity and pressure distributions of the flow. The ANSYS software was used to simulate the co-extrusion of polymers, LLDPE and HDPE, in two-channel feedblock with rectangular, circular, and straight slot cross-sections. The results show that sharp corners increase the thickness of dead zones, while rounding them decreases the thickness. Additionally, stadium-shaped (or straight-slot) cross-section channels can move the flow with a higher maximum velocity and thinner boundary layer combining the results of rectangular and circular feedblocks.
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