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Polypropylene nucleation on a glass fibre after melt shearing

Thermoplastic composites may exhibit a wide range of crystalline morphologies in the neighbourhood of fibres. It was found that glass fibre shearing of a molten polypropylene at high temperature modifies the subsequent isothermal crystallization (T sub c = 122 deg C) under static conditions. The cry...

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Published in:	Journal of materials science 1992-11, Vol.27 (22), p.6047-6052
Main Author:	MONASSE, B
Format:	Article
Language:	English
Subjects:	Applied sciences Composites Exact sciences and technology Forms of application and semi-finished materials Polymer industry, paints, wood Technology of polymers
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description	Thermoplastic composites may exhibit a wide range of crystalline morphologies in the neighbourhood of fibres. It was found that glass fibre shearing of a molten polypropylene at high temperature modifies the subsequent isothermal crystallization (T sub c = 122 deg C) under static conditions. The crystallization results have been analysed as a function of the previous high temperature, shear, gamma , shear rate, gamma ', and shear stress, tau . The mechanical parameters at high temperature, gamma , gamma ', tau , have been calculated for two shearing temperatures (T = 170, 210 deg C) and two fibre displacements. An alpha -phase nucleation process took place at the fibre surface after shearing at the higher temperature (T = 210 deg C). The nucleation increased with shear but did not appear for static conditions. A strong nucleation process in beta phase appeared on the fibre surface after shearing of the polymer at the lower temperature (T = 170 deg C). These strong morphological modifications with shearing temperature have been analysed as a function of mechanical and thermodynamical parameters.
doi_str_mv	10.1007/BF01133748
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It was found that glass fibre shearing of a molten polypropylene at high temperature modifies the subsequent isothermal crystallization (T sub c = 122 deg C) under static conditions. The crystallization results have been analysed as a function of the previous high temperature, shear, gamma , shear rate, gamma ', and shear stress, tau . The mechanical parameters at high temperature, gamma , gamma ', tau , have been calculated for two shearing temperatures (T = 170, 210 deg C) and two fibre displacements. An alpha -phase nucleation process took place at the fibre surface after shearing at the higher temperature (T = 210 deg C). The nucleation increased with shear but did not appear for static conditions. A strong nucleation process in beta phase appeared on the fibre surface after shearing of the polymer at the lower temperature (T = 170 deg C). 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It was found that glass fibre shearing of a molten polypropylene at high temperature modifies the subsequent isothermal crystallization (T sub c = 122 deg C) under static conditions. The crystallization results have been analysed as a function of the previous high temperature, shear, gamma , shear rate, gamma ', and shear stress, tau . The mechanical parameters at high temperature, gamma , gamma ', tau , have been calculated for two shearing temperatures (T = 170, 210 deg C) and two fibre displacements. An alpha -phase nucleation process took place at the fibre surface after shearing at the higher temperature (T = 210 deg C). The nucleation increased with shear but did not appear for static conditions. A strong nucleation process in beta phase appeared on the fibre surface after shearing of the polymer at the lower temperature (T = 170 deg C). 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subjects	Applied sciences Composites Exact sciences and technology Forms of application and semi-finished materials Polymer industry, paints, wood Technology of polymers
title	Polypropylene nucleation on a glass fibre after melt shearing
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