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Effect of plug temperature on the strain and thickness distribution of components made by plug assist thermoforming / D. Marathe in INTERNATIONAL POLYMER PROCESSING, Vol. XXXI, N° 2 (05/2016)
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Titre : Effect of plug temperature on the strain and thickness distribution of components made by plug assist thermoforming Type de document : texte imprimé Auteurs : D. Marathe, Auteur ; D. Rokade, Auteur ; L. Busher Azad, Auteur ; K. Jadhav, Auteur ; S. Mahajan, Auteur ; Z. Ahmad, Auteur ; S. Gupta, Auteur ; S. Kulkarni, Auteur ; V. Juvekar, Auteur ; Ashish Lele, Auteur Année de publication : 2016 Article en page(s) : p. 166-178 Langues : Anglais (eng) Catégories : Etirement (mécanique)
Matières plastiques -- Thermoformage
Polymères -- Effets de la température
Polystyrène choc
RhéologieIndex. décimale : 668.4 Plastiques, vinyles Résumé : Plug temperature is a key parameter affecting the thickness distribution of thermoplastic components made by plug assist thermoforming. For a specified pair of plug and plastic sheet, the variation in plug temperature can alter the coefficient of friction (COF) between the pair. We show here how the temperature dependence of COF influences the nature and extent of biaxial stretching of the sheet and consequently the thickness distribution of the thermoformed component. In the present study, high impact polystyrene (HIPS) sheets were thermoformed into axisymmetric cups using a plug-assist process in which the aluminum plug temperature (Tplug) was varied from ambient to above the glass transition temperature of HIPS (∼100 °C). Biaxial strain maps on the surfaces of the formed cups were measured and quantified using Grid Strain Analysis (GSA). Thickness distributions of the cups were also measured. Temperature dependent COF between HIPS and aluminum was determined independently using a rotational rheometer. The measured COF was low for T < 100 °C, whereas it increased appreciably at and above 100 °C. We conclude that when Tplug < 100 °C the HIPS sheet slips on the plug during forming, and this results in biaxial stretching of the base and walls of the formed cup. In contrast for Tplug > 100 °C, a significant reduction in the magnitude of slip is expected. Here the sheet is gripped at the clamp and by the plug during forming which causes reduced biaxial stretching of the base and increased uniaxial stretching of the walls of the cup. Simulations of plug-assist thermoforming using a temperature dependent COF showed qualitative agreement with the GSA data thereby supporting our inferences. DOI : 10.3139/217.3060 Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=26171
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