Publication detail
Post-polymerization modification of poly (lactic acid) via radical grafting with itaconic anhydride
PETRUŠ, J. KUČERA, F. PETRŮJ, J.
Original Title
Post-polymerization modification of poly (lactic acid) via radical grafting with itaconic anhydride
Type
journal article in Web of Science
Language
English
Original Abstract
Poly(lactic acid) (PLA) was functionalized via radical grafting with itaconic anhydride (IAH) in melt. Reaction was initiated using 2,5-dimethyl-2,5-bis(tert-butylperoxy)hexane (L101). Experiments were achieved in order to determine the relationship between reaction conditions and grafting yield, whereas different concentrations of IAH (0.5–10 wt %) and L101 (0.1–2 wt %) were used for reaction. Reaction temperature 190 °C (calculated according to Arrhenius equation) guaranteed complete decomposition of L101 upon reaction period 6 min. Grafted IAH onto PLA backbone was proved by infrared spectroscopy (FTIR). Structure analysis also proved IAH isomerization to citraconic anhydride (CAH) which affects monomer reactivity at processing temperature. Homopolymerization of IAH was predicted regarding thermal stability of extracted byproducts compared to poly(itaconic anhydride) (PIAH) prepared by radical polymerization in solution. Acid-base titration proved that amount of grafted IAH increases with increasing IAH and L101 concentrations. However, increasing IAH and L101 concentrations lead to higher extent of undesired reactions which were detected by melt flow rate measuring (MFR).
Keywords
Poly(lactic acid), itaconic anhydride, radical grafting.
Authors
PETRUŠ, J.; KUČERA, F.; PETRŮJ, J.
Released
1. 4. 2016
ISBN
0014-3057
Periodical
European Polymer Journal
Number
77
State
United Kingdom of Great Britain and Northern Ireland
Pages from
16
Pages to
30
Pages count
15
BibTex
@article{BUT123267,
author="Josef {Petruš} and František {Kučera} and Jaroslav {Petrůj}",
title="Post-polymerization modification of poly (lactic acid) via radical grafting with itaconic anhydride",
journal="European Polymer Journal",
year="2016",
number="77",
pages="16--30",
doi="10.1016/j.eurpolymj.2016.02.016",
issn="0014-3057"
}