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Polymer Bulletin
Published in: Polymer Bulletin 1/2011

01-06-2011 | Original paper

Poly(lactic acid) blends with desired end-use properties by addition of thermoplastic polyester elastomer and MDI

Authors: Haydar U. Zaman, Jun Cheol Song, Lee-Soon Park, Inn-Kyu Kang, Soo-Young Park, Giseop Kwak, Byung-sik Park, Keun-Byoung Yoon

Published in: Polymer Bulletin | Issue 1/2011

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Abstract

The disadvantages of the poor mechanical properties of polylactic acid (PLA) limit its ability to be used in a wide number of applications. Melt blending of PLA and thermoplastic polyester elastomer (TPEE) has been performed in an effort to toughen the PLA without significant losses in modulus and ultimate tensile strength. In order to enhance the compatibility of PLA and TPEE, a diisocyanate compound was used as a reactive modifier. The thermal and mechanical properties, miscibility and phase morphologies of the blends were investigated. A blend of PLA and TPEE with a modifier does not lead to an important drop in tensile strength and modulus whereas the elongation at break is characterized by a significant increase (above 300%), compared with that of neat PLA and PLA/TPEE. The blends of PLA/TPEE/Modifier were found by thermal and fractured surface analysis to be an immiscible system with the addition of a modifier. However, the relative ductility of PLA/TPEE/Modifier is 34 times higher than that of neat PLA. The brittle fracture of neat PLA was transformed into a ductile fracture by the addition of a modifier.
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Literature
1.
Sodergard A, Scolt M (2002) Properties of lactic acid based polymers and their correlation with composition. Prog Polym Sci 27:1123–1163CrossRef
2.
Li S, Anjard S, Rashkov L, Vort M (1996) High molecular weight poly(l-lactide) and poly(ethylene oxide) blends: thermal characterization and physical properties. Polymer 37:5849–5857CrossRef
3.
Chiellini E, Solaro R (1996) Biodegradable polymeric materials. Adv Mater 8:305–313CrossRef
4.
Jacobsen S, Fritz HG (1999) Plasticizing polylactide—the effect of different plasticizers on the mechanical properties. Polym Eng Sci 39:1303–1310CrossRef
5.
Hiljanen-Vainio M, Karjalainen T, Seppälä JV (1996) Biodegradable lactone copolymers. I. Characterization and mechanical behavior of ε-caprolactone and lactide copolymers. J Appl Polym Sci 59:1281–1288CrossRef
6.
Hiljanen-Vainio M, Orava PA, Seppälä JV (1997) Properties of ε-caprolactone/DL-lactide (ε-CL/DL-LA) copolymers with a minor ε-CL content. J Biomed Mater Res 34:39–46CrossRef
7.
Martin O, Averous L (2001) Poly(lactic acid): plasticization and properties of biodegradable multiphase systems. Polymer 42:6209–6219CrossRef
8.
Zhang LL, Xiong CD, Deng XM (1996) Miscibility, crystallization and morphology of poly(β-hydroxybutyrate)/poly(d,l-lactide) blends. Polymer 37:235–241CrossRef
9.
Lostocco MR, Huang SJ (1997) Aliphatic polyester blends based upon poly(lactic acid) and oligomeric poly(hexamethylene succinate). J Macromol Sci Pure Appl Chem A34:2165–2175
10.
Yeganeh H, Lakouraj MM, Jamshidi S (2005) Synthesis and properties of biodegradable elastomeric epoxy modified polyurethanes based on poly(ε-caprolactone) and poly(ethylene glycol). Eur Polym J 41:2370–2379CrossRef
11.
Okamoto K, Ichikawa T, Yokohara T, Yamaguchi M (2009) Miscibility, mechanical and thermal properties of poly(lactic acid)/polyester-diol blends. Eur Polym J 45:2304–2312CrossRef
12.
Ke T, Sun XS (2003) Thermal and mechanical properties of poly(lactic acid)/starch/methylenediphenyl diisocyanate blending with triethyl citrate. J Appl Polym Sci 88:2947–2955CrossRef
13.
Pyda M, Bopp RC, Wunderlich B (2004) Heat capacity of poly(lactic acid). J Chem Thermodyn 36:731–742CrossRef
14.
Kim GM, Michler GH, Gahleitner M, Fiebig J (1996) Relationship between morphology and micromechanical toughening mechanisms in modified polypropylenes. J Appl Polym Sci 60:1391–1403CrossRef
15.
Kim GM, Michler GH (1998) Micromechanical deformation processes in toughened and particle-filled semicrystalline polymers: part 1. Characterization of deformation processes in dependence on phase morphology. Polymer 39:5689–5697CrossRef
Metadata
Title
Poly(lactic acid) blends with desired end-use properties by addition of thermoplastic polyester elastomer and MDI
Authors
Haydar U. Zaman
Jun Cheol Song
Lee-Soon Park
Inn-Kyu Kang
Soo-Young Park
Giseop Kwak
Byung-sik Park
Keun-Byoung Yoon
Publication date
01-06-2011
Publisher
Springer-Verlag
Published in
Polymer Bulletin / Issue 1/2011
Print ISSN: 0170-0839
Electronic ISSN: 1436-2449
DOI
https://doi.org/10.1007/s00289-011-0448-5

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