Cailiao gongcheng (Apr 2019)
Puncture strength research of electrospun PPESK fibrous membrane
Abstract
Electrospun fibrous membranes have been widely used for research of lithium-ion battery separators because of the high porosity, large specific surface area as well as excellent electrolyte wettability. However, little research has been focused on the puncture strength, which influences the safety of lithium-ion battery seriously. PPESK fibrous membranes with different thicknesses were fabricated by electrospinning technique, and the mechanical properties were improved by heat treatment, and the puncture strength of heat-treated PPESK membrane was tested using universal tensile testing machine and the linear relationship between the puncture strength of heat-treated PPESK fibrous membrane and the thickness was established. The further microscopic analysis of the puncture failure region was carried out to explore the puncture failure mechanism of heat-treated PPESK fibrous membranes. The result shows that the puncture process of isotropic heat-treated PPESK fibrous membrane is much tempered compared with PP microporous separator. The penetration of the heat-treated PPESK fibrous membranes was caused by the bend, deformation and fracture of PPESK fibers. The failure region of heat-treated PPESK fibrous membrane appears a circular hole, while the PP separator is long cracks. The puncture mechanism of heat-treated PPESK fibrous membrane is beneficial to prevent the destruction of lithium dendrites, but the puncture strength of heat-treated PPESK fibrous membrane remains to be enhanced.
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