Porous Ultra-High Molecular Weight Polyethylene Membrane Prepared by One- and Two-Step Biaxially Stretching Method

IF 2.8 3区化学 Q2 POLYMER SCIENCE

Journal of Applied Polymer Science Pub Date : 2025-04-30 DOI:10.1002/app.57271

Jiayou Quan, Lingling Tang, Xinwei Wang, Junrong Yu, Zuming Hu

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Abstract

Volatile decalin as a solvent to prepare porous UHMWPE membrane is explored in this paper. Capillary force will lead to pore collapse, so decalin cannot be volatiled in the drawing process, and it must be removed as much as possible before biaxially stretching. However, without lubricating of solvent, the orientation of the polymer chain becomes difficult. So, after the investigation of one-step drawing conditions, including the drawing temperature, speed, ratio, and heat-setting temperature, the best prepared membrane (HT135) has a low tensile strength of 75.6 MPa but a high Gurley value of 49.8 s/100 mL and porosity of 61.7%. Then, a two-step drawing method was proposed to fabricate the UHMWPE membrane. In 2nd drawing process, the raised temperature will improve the movement of the polymer chains. After 2nd drawing, the membrane (1.2UPE/2) tensile strength is increased to 187.0 MPa and has a Gurley value of 72.5 s/100 mL and porosity of 36.7%. Moreover, the addition of a nucleating agent and using high molecular UHMWPE resin are beneficial for the preparation of higher tensile strength and uniform morphology membranes, respectively.

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一步和两步双向拉伸法制备多孔超高分子量聚乙烯膜

对挥发性十氢化萘作为溶剂制备超高分子量聚乙烯多孔膜进行了研究。毛细力会导致孔隙崩塌，所以在拉伸过程中不能挥发十氢化萘，必须在双轴拉伸前尽可能将其去除。然而，没有溶剂的润滑，聚合物链的定向就变得困难。因此，通过对拉伸温度、拉伸速度、拉伸比例、热定型温度等一步拉伸条件的考察，得到的最佳拉伸膜HT135拉伸强度低，为75.6 MPa，但Gurley值高，为49.8 s/100 mL，孔隙率为61.7%。然后，提出了一种两步拉伸法制备超高分子量聚乙烯膜的方法。在二次拉伸过程中，温度的升高会改善聚合物链的运动。经二次拉伸后，膜（1.2UPE/2）抗拉强度提高到187.0 MPa， Gurley值为72.5 s/100 mL，孔隙率为36.7%。此外，加入成核剂和使用高分子超高分子量聚乙烯树脂分别有利于制备更高的拉伸强度和均匀形态的膜。

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来源期刊

Journal of Applied Polymer Science 化学-高分子科学

CiteScore

5.70

自引率

10.00%

发文量

1280

审稿时长

2.7 months

期刊介绍： The Journal of Applied Polymer Science is the largest peer-reviewed publication in polymers, #3 by total citations, and features results with real-world impact on membranes, polysaccharides, and much more.