Influence of incorporation of starch nanoparticles in PBAT/TPS composite films

Films of PBAT/TPS (poly(butylene adipate-co-terephthalate)/thermoplastic starch) (starch plasticized with glycerol containing citric and stearic acids) without and with 0.6 wt% starch nanoparticles were produced by extrusion. The presence of nanoparticles during the extrusion process led to a higher...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: González Seligra, P., Eloy Moura, L., Famá, L., Druzian, J.I., Goyanes, S.
Formato: JOUR
Materias:
biodegradability
PBAT
starch nanoparticles
thermal properties
TPS
Biodegradability
Chemical industry
Composting
Elastic moduli
Extrusion
Gelation
Hydrogen bonds
Nanoparticles
Starch
Thermodynamic properties
Extrusion process
Hydroxyl groups
Lower temperatures
Polies (butylene adipate co terephthalate)
Reinforcing effects
Starch gelatinization
Starch nanoparticles
Nanocomposite films
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_09598103_v65_n8_p938_GonzalezSeligra
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_09598103_v65_n8_p938_GonzalezSeligra
record_format dspace
spelling todo:paper_09598103_v65_n8_p938_GonzalezSeligra2023-10-03T15:53:14Z Influence of incorporation of starch nanoparticles in PBAT/TPS composite films González Seligra, P. Eloy Moura, L. Famá, L. Druzian, J.I. Goyanes, S. biodegradability PBAT starch nanoparticles thermal properties TPS Biodegradability Chemical industry Composting Elastic moduli Extrusion Gelation Hydrogen bonds Nanoparticles Starch Thermodynamic properties Extrusion process Hydroxyl groups Lower temperatures PBAT Polies (butylene adipate co terephthalate) Reinforcing effects Starch gelatinization Starch nanoparticles Nanocomposite films Films of PBAT/TPS (poly(butylene adipate-co-terephthalate)/thermoplastic starch) (starch plasticized with glycerol containing citric and stearic acids) without and with 0.6 wt% starch nanoparticles were produced by extrusion. The presence of nanoparticles during the extrusion process led to a higher degree of starch gelatinization improving starch compatibility with PBAT. Nanoparticles modified the interaction between the different components of the PBAT/TPS composite. The hydroxyl groups of the starch nanoparticles interacted with starch amylose by means of hydrogen bonds. In addition, nanoparticles modified the structure of the PBAT rigid segment (BT): a shift of Tm of BT toward lower temperatures and a slight shift of the relaxation of the BT segment to higher temperatures were observed. The incorporation of nanoparticles also had a reinforcing effect on the PBAT/TPS matrix. The composite presented slight increases of Young's modulus (E) and stress at break (σb) without affecting the strain at break (ϵb). The rate of biodegradability was improved with the use of starch nanoparticles. The composite showed faster deterioration than the matrix, showing the first changes in its tonality and breakdowns at only 6 days of burial in compost. © 2016 Society of Chemical Industry. © 2016 Society of Chemical Industry Fil:Famá, L. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Goyanes, S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09598103_v65_n8_p938_GonzalezSeligra
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic biodegradability
PBAT
starch nanoparticles
thermal properties
TPS
Biodegradability
Chemical industry
Composting
Elastic moduli
Extrusion
Gelation
Hydrogen bonds
Nanoparticles
Starch
Thermodynamic properties
Extrusion process
Hydroxyl groups
Lower temperatures
PBAT
Polies (butylene adipate co terephthalate)
Reinforcing effects
Starch gelatinization
Starch nanoparticles
Nanocomposite films
spellingShingle biodegradability
PBAT
starch nanoparticles
thermal properties
TPS
Biodegradability
Chemical industry
Composting
Elastic moduli
Extrusion
Gelation
Hydrogen bonds
Nanoparticles
Starch
Thermodynamic properties
Extrusion process
Hydroxyl groups
Lower temperatures
PBAT
Polies (butylene adipate co terephthalate)
Reinforcing effects
Starch gelatinization
Starch nanoparticles
Nanocomposite films
González Seligra, P.
Eloy Moura, L.
Famá, L.
Druzian, J.I.
Goyanes, S.
Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
topic_facet biodegradability
PBAT
starch nanoparticles
thermal properties
TPS
Biodegradability
Chemical industry
Composting
Elastic moduli
Extrusion
Gelation
Hydrogen bonds
Nanoparticles
Starch
Thermodynamic properties
Extrusion process
Hydroxyl groups
Lower temperatures
PBAT
Polies (butylene adipate co terephthalate)
Reinforcing effects
Starch gelatinization
Starch nanoparticles
Nanocomposite films
description Films of PBAT/TPS (poly(butylene adipate-co-terephthalate)/thermoplastic starch) (starch plasticized with glycerol containing citric and stearic acids) without and with 0.6 wt% starch nanoparticles were produced by extrusion. The presence of nanoparticles during the extrusion process led to a higher degree of starch gelatinization improving starch compatibility with PBAT. Nanoparticles modified the interaction between the different components of the PBAT/TPS composite. The hydroxyl groups of the starch nanoparticles interacted with starch amylose by means of hydrogen bonds. In addition, nanoparticles modified the structure of the PBAT rigid segment (BT): a shift of Tm of BT toward lower temperatures and a slight shift of the relaxation of the BT segment to higher temperatures were observed. The incorporation of nanoparticles also had a reinforcing effect on the PBAT/TPS matrix. The composite presented slight increases of Young's modulus (E) and stress at break (σb) without affecting the strain at break (ϵb). The rate of biodegradability was improved with the use of starch nanoparticles. The composite showed faster deterioration than the matrix, showing the first changes in its tonality and breakdowns at only 6 days of burial in compost. © 2016 Society of Chemical Industry. © 2016 Society of Chemical Industry
format JOUR
author González Seligra, P.
Eloy Moura, L.
Famá, L.
Druzian, J.I.
Goyanes, S.
author_facet González Seligra, P.
Eloy Moura, L.
Famá, L.
Druzian, J.I.
Goyanes, S.
author_sort González Seligra, P.
title Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
title_short Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
title_full Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
title_fullStr Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
title_full_unstemmed Influence of incorporation of starch nanoparticles in PBAT/TPS composite films
title_sort influence of incorporation of starch nanoparticles in pbat/tps composite films
url http://hdl.handle.net/20.500.12110/paper_09598103_v65_n8_p938_GonzalezSeligra
work_keys_str_mv AT gonzalezseligrap influenceofincorporationofstarchnanoparticlesinpbattpscompositefilms
AT eloymoural influenceofincorporationofstarchnanoparticlesinpbattpscompositefilms
AT famal influenceofincorporationofstarchnanoparticlesinpbattpscompositefilms
AT druzianji influenceofincorporationofstarchnanoparticlesinpbattpscompositefilms
AT goyaness influenceofincorporationofstarchnanoparticlesinpbattpscompositefilms
_version_ 1807324307648413696

Ejemplares similares