Shuangyang Liu scite author profile

Polyamide 66 (PA 66) nanofiber bundles were first electrospun and then introduced into isotactic polypropylene (iPP) melts to prepare nanofiber bundle/iPP composites. To reveal the influences of matrix molecular weight (M n ) on the transcrystalline layer, three kinds of iPP with different M n were adopted. Polarized optical microscope was employed to investigate the transcrystallinity. In the presence of PA 66 nanofiber bundle, the heterogeneous nucleation distinctly happened in iPP melts. Moreover, the higher the iPP M n , the denser the nuclei. Both a decrease in matrix M n and an increase in isothermal crystallization temperature led to an increase in the induction time. The maximum temperature at which the transcrystalline layer can be optically observed increased with the increase of M n . The growth rate of transcrystallinity decreased with the increasing M n and crystallization temperature. Moreover, selective melting of the transcrystalline layers confirmed that it was merely composed of α form crystal for all composites.

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Direct microscopic observation of shish-kebab structure in high-temperature electrospun iPP fibers

Liu

Zhang

Zheng

et al. 2016

Materials Letters

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Preparation and characterization of macroscopically electrospun polyamide 66 nanofiber bundles

Wang

Zheng

et al. 2014

Materials Letters

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β-Crystal in the iPP melt encapsulated by transcrystallinity and spherulites: effect of molecular weight

et al. 2012

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Shuangyang Liu

Electrospun isotactic polypropylene fibers: Self-similar morphology and microstructure

Transcrystallization in nanofiber bundle/isotactic polypropylene composites: effect of matrix molecular weight

Direct microscopic observation of shish-kebab structure in high-temperature electrospun iPP fibers

Preparation and characterization of macroscopically electrospun polyamide 66 nanofiber bundles

β-Crystal in the iPP melt encapsulated by transcrystallinity and spherulites: effect of molecular weight

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