Publication result detail

Multicomponent Blends based on Polylactic Acid, Polyhydroxybuty-rate and thermoplastic Starch

Vanovcanova, Z; Tomanova, K; Feranc, J; Bockaj, J; Plavec, R; Omanikova, L; Galisova, I; Jurkovic, P; Macurik, P; Medlenova, E; Alexy, P; Menčík, P; Přikryl, R; Salac, J

Original Title

Multicomponent Blends based on Polylactic Acid, Polyhydroxybuty-rate and thermoplastic Starch

English Title

Multicomponent Blends based on Polylactic Acid, Polyhydroxybuty-rate and thermoplastic Starch

Type

WoS Article

Original Abstract

Influence of structure of the blend based on polylactic acid, polyhydroxybutyrate and thermoplastic starch (PLA/TPS/PHB) on morphology and mechanical properties was studied. Optimal composition of the blend was determined to ensure good dispersion of the particular components in the polymer matrix which resulted in acceptable properties of materials for selected applications. In order to obtain a complex description of the studied system, the design of experiment (DoE) was used as an experimental strategy to explore the possible interactions between components of the blend. Mechanical properties were measured 24 h after sample (film) preparation and also after the specific storage time:up to1 month to study the effect of storage time on the mechanical properties.

English abstract

Influence of structure of the blend based on polylactic acid, polyhydroxybutyrate and thermoplastic starch (PLA/TPS/PHB) on morphology and mechanical properties was studied. Optimal composition of the blend was determined to ensure good dispersion of the particular components in the polymer matrix which resulted in acceptable properties of materials for selected applications. In order to obtain a complex description of the studied system, the design of experiment (DoE) was used as an experimental strategy to explore the possible interactions between components of the blend. Mechanical properties were measured 24 h after sample (film) preparation and also after the specific storage time:up to1 month to study the effect of storage time on the mechanical properties.

Keywords

Polylactic acid;polyhydroxybutyrate;thermoplastic starch;;biodegradable polymer blends;modification;mechanical properties;degradation;glycerol;Engineering;Polymer Science

Key words in English

Polylactic acid;polyhydroxybutyrate;thermoplastic starch;;biodegradable polymer blends;modification;mechanical properties;degradation;glycerol;Engineering;Polymer Science

Authors

Vanovcanova, Z; Tomanova, K; Feranc, J; Bockaj, J; Plavec, R; Omanikova, L; Galisova, I; Jurkovic, P; Macurik, P; Medlenova, E; Alexy, P; Menčík, P; Přikryl, R; Salac, J

RIV year

2019

Released

01.06.2018

ISBN

0022-9520

Periodical

KAUTSCHUK GUMMI KUNSTSTOFFE

Volume

71

Number

6

State

Federal Republic of Germany

Pages from

104

Pages to

110

Pages count

7

URL

http://apps.webofknowledge.com/InboundService.do;jsessionid=2CE1BD88CF1DBDF137C0F6EEFE961ECA?customersID=ISIResearchSoft&mode=FullRecord&IsProductCode=Yes&product=WOS&Init=Yes&Func=Frame&DestFail=http%3A%2F%2Fwww.webofknowledge.com&action=retrieve&SrcApp=EndNoteWeb&SrcAuth=ISIResearchSoft&SID=C1pYHjbXFM9hwNCkJEP&UT=WOS%3A000437805700010

BibTex

@article{BUT149613,
  author="Vanovcanova, Z and Tomanova, K and Feranc, J and Bockaj, J and Plavec, R and Omanikova, L and Galisova, I and Jurkovic, P and Macurik, P and Medlenova, E and Alexy, P and Menčík, P and Přikryl, R and Salac, J",
  title="Multicomponent Blends based on Polylactic Acid, Polyhydroxybuty-rate and thermoplastic Starch",
  journal="KAUTSCHUK GUMMI KUNSTSTOFFE",
  year="2018",
  volume="71",
  number="6",
  pages="104--110",
  issn="0022-9520",
  url="http://apps.webofknowledge.com/InboundService.do;jsessionid=2CE1BD88CF1DBDF137C0F6EEFE961ECA?customersID=ISIResearchSoft&mode=FullRecord&IsProductCode=Yes&product=WOS&Init=Yes&Func=Frame&DestFail=http%3A%2F%2Fwww.webofknowledge.com&action=retrieve&SrcApp=EndNoteWeb&SrcAuth=ISIResearchSoft&SID=C1pYHjbXFM9hwNCkJEP&UT=WOS%3A000437805700010"
}