双向拉伸温度对湿法隔膜拉伸过程中相畴结构的影响

doi:10.19491/j.issn.1001-9278.2022.10.005

中国塑料 ›› 2022, Vol. 36 ›› Issue (10): 33-38.DOI: 10.19491/j.issn.1001-9278.2022.10.005

双向拉伸温度对湿法隔膜拉伸过程中相畴结构的影响

胡玉涛¹, 王磊¹, 马克¹, 宋红芹¹, 王莉¹, 柳青¹, 万彩霞²(), 孟令蒲²

^1.乐凯胶片股份有限公司，河北省新能源膜材料技术创新中心，保定市新能源膜材料技术创新中心，河北保定 071054
^2.中国科学技术大学国家同步辐射实验室，合肥 230029

收稿日期:2022-07-05 出版日期:2022-10-26 发布日期:2022-10-27
通讯作者: 万彩霞（1990—），女，博士后，从事高分子薄膜加工研究工作，cxwan113@ustc.edu.cn
E-mail:cxwan113@ustc.edu.cn

Effect of biaxial stretching temperature on phase structure of wet separators during stretching process

HU Yutao¹, WANG Lei¹, MA Ke¹, SONG Hongqin¹, WANG Li¹, LIU Qing¹, WAN Caixia²(), MENG Lingpu²

^1.Lucky Film Co，Ltd，Hebei New Energy Membrane Material Technology Innovation Center，Baoding New Energy Membrane Material Technology Innovation Center，Baoding 071054，China
^2.National Synchrotron Radiation Laboratory，University of Science and Technology of China，Hefei 230029，China

Received:2022-07-05 Online:2022-10-26 Published:2022-10-27
Contact: WAN Caixia E-mail:cxwan113@ustc.edu.cn

摘要/Abstract

摘要：

通过系统改变纵向（MD）、横向（TD）拉伸温度，制得了经不同拉伸温度双向拉伸后的湿法隔膜，并通过扫描电子显微镜（SEM）、透气度仪、泡点法膜孔径分析仪对湿法隔膜表观形貌、孔隙结构、透气性能进行了表征和测试，此外利用差示扫描量热仪（DSC）表征了湿法隔膜内部微观晶体的结晶度。结果表明，纵向拉伸温度的改变几乎对湿法隔膜孔径无影响，湿法隔膜孔径只与横向拉伸温度密切相关，随着横向拉伸温度由90 ℃升高至120 ℃，孔径由18.3 nm增大至45.4 nm；受孔径的影响，湿法隔膜的透气度由149.8 s降低至62.2 s，两者呈现较好的线性关系；当横向拉伸温度为120 ℃时，湿法隔膜内部发生熔融重结晶，结晶度由之前的17 %增大至20 %，此时湿法隔膜内部为由串晶构成的三维网络结构。

关键词: 湿法隔膜, 拉伸温度, 孔隙, 透气度, 串晶

Abstract:

The biaxially stretched wet separators were prepared at different stretching temperatures through systematically changing the stretching temperature in the longitudinal and transverse directions， and their internal pore appearance， pore structure， and air permeability were characterized using scanning electron microscope， the Gurley′s instrument， and pore size analyzer. In addition， differential scanning calorimetry was used to analyze the crystallinity of the micro⁃crystals inside the wet separators. The results indicated that there was no effect from the change of the longitudinal stretching temperature on the pore size of the wet separators. The pore size of the wet separators was only closely related to the transverse stretching temperature. As the transverse stretching temperature increased from 90 to 120 ºC， the pore size increased from 18.3 to 45.4 nm. Owing to a change in pore size， the air permeability of the wet separators decreased from 149.8 to 62.2 s， both of which exhibited a good linear relationship. When the transverse stretching temperature was 120 ºC， the melting and re⁃crystallization occurred inside of the wet separators， resulting in an increasing in the degree of crystallinity from 17 % to 20 %. Meanwhile， the interior of the separators showed a three⁃dimensional network structure comprising the shish⁃kebab crystals.

Key words: wet separator, stretching temperature, pore structure, Gurley′s value, shish?kebab crystal

中图分类号:

TQ325.1⁺2

胡玉涛, 王磊, 马克, 宋红芹, 王莉, 柳青, 万彩霞, 孟令蒲. 双向拉伸温度对湿法隔膜拉伸过程中相畴结构的影响[J]. 中国塑料, 2022, 36(10): 33-38.

HU Yutao, WANG Lei, MA Ke, SONG Hongqin, WANG Li, LIU Qing, WAN Caixia, MENG Lingpu. Effect of biaxial stretching temperature on phase structure of wet separators during stretching process[J]. China Plastics, 2022, 36(10): 33-38.

图/表 7

MD拉伸温度/℃	TD拉伸温度/℃
80	90
	100
	110
	120
90	90
	100
	110
	120
100	100
	110
	120
110	110
110	120

表1 MD和TD的拉伸温度

Tab.1 Longitudinal and transverse stretching temperature

图1 不同MD、TD拉伸温度下样品的表观形貌

Fig.1 The morphologies of samples under different MD and TD stretching temperature.

图2 不同MD、TD拉伸温度下样品的孔径

Fig.2 The pore size of samples under different MD and TD stretching temperature

图3 不同MD、TD拉伸温度下样品的孔隙率

Fig.3 The porosity of samples under different MD and TD stretching temperature

图4 不同MD、TD拉伸温度下样品的透气度

Fig.4 The Gurley′s value of samples under different MD and TD stretching temperature

图5 透气度与孔径的线性关系

Fig.5 The linear relationship of Gurley′s value and pore size

MD温度/℃	TD温度/℃	熔融焓/J·g^-1	结晶度/%
80	90
	100	49.5	16.9
	110	51.0	17.4
	120	58.9	20.1
90	90	48.9	16.7
	100	51.6	17.6
	110	46.3	15.8
	120	61.2	20.9
100	100	50.1	17.1
	110	46.3	15.8
	120	60.9	20.8
110	110	46.3	15.8
110	120	63.0	21.5

表2 不同MD、TD拉伸温度下样品的熔融焓及结晶度

Tab.2 Melting enthalpy and crystallinity of samples at different MD and TD stretching temperature

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双向拉伸温度对湿法隔膜拉伸过程中相畴结构的影响

Effect of biaxial stretching temperature on phase structure of wet separators during stretching process

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