中国塑料 ›› 2025, Vol. 39 ›› Issue (10): 49-53.DOI: 10.19491/j.issn.1001-9278.2025.10.009

• 材料与性能 • 上一篇    下一篇

两种不同分子量PTFE树脂的微孔膜结构和性能比较

孙敬汝, 陈洋(), 杨祥春, 季辉, 王丽, 窦红星   

  1. 山东东岳未来氢能材料股份有限公司,山东 淄博 256400
  • 收稿日期:2024-10-28 出版日期:2025-10-26 发布日期:2025-10-21
  • 通讯作者: 陈洋(1992—),男,高级工程师,研究方向为高分子材料加工成型及应用开发,yang.chen@dyfhem.com
    E-mail:yang.chen@dyfhem.com

Comparison of microporous membrane structure and properties between two PTFE resins with different molecular weights

SUN Jingru, CHEN Yang(), YANG Xiangchun, JI Hui, WANG Li, DOU Hongxing   

  1. ShanDong Dongyue Future Hydrogen Energy Material Co,Ltd,Zibo 256400,Chian
  • Received:2024-10-28 Online:2025-10-26 Published:2025-10-21
  • Contact: CHEN Yang E-mail:yang.chen@dyfhem.com

摘要:

对标日本大金的F⁃106和F⁃104C两款聚四氟乙烯(PTFE)树脂,选择了两种不同分子量的国产树脂制备微孔膜,并对两种微孔膜的微观形貌、热力学性能及力学性能进行比较。结果表明,大分子量的PTFE树脂在拉伸过程中更容易形成的短纤维小结点的微孔结构,形成的PTFE微孔膜孔径为0.22 μm,透气量为11 L/(m2∙s),拉伸强度为7.1 MPa,使用大分子量的PTFE树脂更易获得小孔径高强度的微孔膜;小分子量的PTFE树脂则更容易形成长纤维大结点的微孔结构,制备的微孔膜孔径为0.71 μm,透气量为33 L/(m2∙s),拉伸强度为3.3 MPa,适合制备具有大孔径高透气的微孔膜。另外发现,大分子量PTFE微孔膜的结晶度仅有69.72 %,而小分子量的有82.82 %,表明大分子量微孔膜在加工过程中对晶体结构的破坏更严重,再结晶度能力弱。

关键词: 聚四氟乙烯, 拉伸, 微孔膜, 分子量

Abstract:

This study compares the properties of microporous membranes fabricated from two domestic polytetrafluoroethylene (PTFE) resins with different molecular weights against two commercial benchmarks (Daikin F⁃106 and F⁃104C). The influence of molecular weight on the microscopic morphology, thermomechanical properties, and mechanical performance of the stretched membranes was systematically investigated. The results indicated a strong structure⁃property relationship: the high molecular weight (HMW) PTFE resin facilitated the formation of a microstructure characterized by short fibers and small junctions. This structure yielded a membrane with a small pore size (0.22 μm), high tensile strength (7.1 MPa), but lower air permeability. Conversely, the low molecular weight (LMW) resin produced long fibers and large junctions, resulting in a membrane with a larger pore size (0.71 μm), higher gas permeability [33 L/(m²·s)], and lower strength (3.3 MPa). Furthermore, crystallinity analysis revealed that the HMW membrane had a lower crystallinity (69.72 %) compared to the LMW membrane (82.82 %), suggesting greater crystal structure damage and weaker recrystallization ability during processing. These findings demonstrate that molecular weight is a critical parameter for tailoring PTFE microporous membranes for specific applications, with HMW resins favoring small⁃pore, high⁃strength membranes and LMW resins enabling high⁃permeability variants.

Key words: polytetrafluoroethylene, stretching, microporous membrane, molecular weight

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