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Effect of processing conditions on the cell morphology distribution in foamed injection molded PLA samples

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dc.title Effect of processing conditions on the cell morphology distribution in foamed injection molded PLA samples en
dc.contributor.author Volpe, Valentina
dc.contributor.author De Filitto, Martina
dc.contributor.author Klofáčová, Věra
dc.contributor.author De Santis, Felice
dc.contributor.author Pantani, Roberto
dc.relation.ispartof AIP Conference Proceedings
dc.identifier.issn 0094-243X Scopus Sources, Sherpa/RoMEO, JCR
dc.identifier.isbn 978-0-7354-1606-2
dc.date.issued 2017
utb.relation.volume 1914
dc.event.title 32nd International Conference of the Polymer Processing Society, PPS 2016
dc.event.location Lyon
utb.event.state-en France
utb.event.state-cs Francie
dc.event.sdate 2016-07-25
dc.event.edate 2016-07-29
dc.type conferenceObject
dc.language.iso en
dc.publisher American Institute of Physics Inc.
dc.identifier.doi 10.1063/1.5016727
dc.relation.uri http://aip.scitation.org/doi/abs/10.1063/1.5016727
dc.subject foam injection molding en
dc.subject morphology, crystallinity en
dc.subject Poly(Lactic) Acid en
dc.description.abstract Foam injection molding uses physical blowing agents under high pressure and temperature to produce structural foams having a cellular core and a compact solid skin. This technology is particularly interesting for biodegradable polymers, which often present a very narrow processing window, with the suitable processing temperatures close to the degradation conditions. The addition of a supercritical gas can lead to the reduction of both the viscosity and the glass transition temperature of the polymer melt, which therefore can be injection molded adopting lower temperatures and pressures. In this work, the effect of different processing parameters on foam morphology of Poly(lactic) Acid, PLA, was studied. In particular, two commercial grades of PLA having different rheological properties were adopted to obtain foamed parts by injection molding process with nitrogen as a physical blowing agent. For both PLA grades, the effect of mold temperature on the crystallinity and the resulting cell morphology was assessed. © 2017 Author(s). en
utb.faculty University Institute
dc.identifier.uri http://hdl.handle.net/10563/1007714
utb.identifier.obdid 43877840
utb.identifier.scopus 2-s2.0-85038954743
utb.identifier.wok 000426217800041
utb.source d-scopus
dc.date.accessioned 2018-02-26T10:20:00Z
dc.date.available 2018-02-26T10:20:00Z
utb.ou Centre of Polymer Systems
utb.contributor.internalauthor Klofáčová, Věra
utb.fulltext.affiliation Valentina Volpe a , Martina De Filitto a , Vera Klofacova b , Felice De Santis a , Roberto Pantani a* a Department of Industrial Engineering. University of Salerno Via Giovanni Paolo II, 132, 84084 Fisciano (SA), Italy b Centre of Polymer Systems, University Institute, Tomas Bata University in Zlin, Trida Tomase Bati 5678, 760 01 Zlin, Czech Republic *[email protected]
utb.fulltext.dates -
utb.fulltext.references 1. A. Ameli, M. Nofar, D. Jahani, G. Rizvi and C.B. Park, Chemical Engineering Journal 262, 78-87 (2015). 2. M. Nofar, A. Tabatabaei, A. Ameli and C.B. Park, Polymer 54, 6471-6478 (2013). 3. Rasal, R.M., A.V. Janorkar and D.E. Hirt, Progress in Polymer Science 35, 338-356 (2010). 4. G. Gorrasi and R. Pantani, Polymer Degradation and Stability 98, 1006-1014. (2013). 5. R. Pantani, F. De Santis, A. Sorrentino, F. De Maio and G. Titomanlio, Polymer Degradation and Stability 95, 1148-1159 (2010). 6. F. De Santis, R. Pantani and G. Titomanlio, Thermochimica Acta 522, 128-134 (2011). 7. F. De Santis and R. Pantani, Journal of Polymer Research 22, 242 (2015). 8. W.D. Ding, R.K.M. Chu, L.H. Mark and C.B. Park, European Polymer Journal 71, 231-247 (2015). 9. M. Nofar, A. Tabatabaei, C.B. Park, Polymer 54, 2382-2391 (2013). 10. V. Speranza, A. De Meo, R. Pantani, Polymer Degradation and Stability 100, 37-41 (2014). 11. J. Wang, W. Zhu, H. Zhang, C.B. Park, Chemical Engineering Science 75, 390-399 (2012). 12. R. Pantani, V. Volpe, G. Titomanlio, Journal of Materials Processing Technology 214, 3098-3107 (2014). 13. V. Volpe and R. Pantani, Journal of Applied Polymer Science 132, 42612 (2015). 14. M. Mihai, M.A. Huneault, and B.D. Favis, Journal of Applied Polymer Science 113, 2920-2932 (2009). 15. R. Pantani, F. De Santis, F. Auriemma, C. De Rosa, R. Di Girolamo, Polymer 99, 130-139 (2016). 16. R. Pantani, F. De Santis, AIP Conference Proceedings 1695, 020066 (2015). 17. F. De Santis, R. Pantani, G. Titomanlio, Thermochimica Acta 522, 128-134 (2011). 18. F. De Santis, G. Gorrasi, R. Pantani, Polymer Testing 44, 15-22 (2015). 19. G. Gorrasi, R. Pantani, M. Murariu, P. Dubois, Macromolecular Materials and Engineering 299, 104-115 (2014).
utb.fulltext.sponsorship -
utb.scopus.affiliation Department of Industrial Engineering, University of Salerno, Via Giovanni Paolo II 132, Fisciano (SA), Italy; Centre of Polymer Systems, University Institute, Tomas Bata University in Zlin, Trida Tomase Bati 5678, Zlin, Czech Republic
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