Characterization and biodegradability of polyester bioplastic-based green renewable composites from agricultural residues

The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate) (PBSA-g-AA) and agricultural residues (rice husk, RH) were evaluated. Composites containing acrylic acid-grafted PBSA (PBSA-g-AA/RH) exhibited notice...

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Published inPolymer degradation and stability Vol. 97; no. 1; pp. 64 - 71
Main Author Wu, Chin-San
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.01.2012
Elsevier
Subjects
Agricultural residues
Applied sciences
Azospirillum brasilense
bacteria
biodegradability
Biodegradation
Composite
composite materials
Composites
crosslinking
culture media
Exact sciences and technology
films (materials)
Forms of application and semi-finished materials
mechanical properties
molecular weight
Oryza sativa
Poly(butylene succinate adipate)
polyesters
Polymer industry, paints, wood
rice hulls
succinic acid
Technology of polymers
viscosity
Biodegradation
Poly(butylene succinate adipate)
Agricultural residues
Composite
Biological properties
Acrylic acid copolymer
Graft copolymer
Biodegradability
Intrinsic viscosity
Mechanical properties
Experimental study
Rice by product
Composite material
Succinate copolymer
Ester copolymer
Morphology
Concentration effect
Reaction mechanism
Agricultural waste
Adipate copolymer
Rheological properties
Online AccessGet full text
ISSN0141-3910
1873-2321
DOI10.1016/j.polymdegradstab.2011.10.012

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Abstract The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate) (PBSA-g-AA) and agricultural residues (rice husk, RH) were evaluated. Composites containing acrylic acid-grafted PBSA (PBSA-g-AA/RH) exhibited noticeably superior mechanical properties compared with those of PBSA/RH due to greater compatibility with RH. The dispersion of RH in the PBSA-g-AA matrix was highly homogeneous as a result of ester formation, and the consequent creation of branched and cross-linked macromolecules, between the carboxyl groups of PBSA-g-AA and hydroxyl groups in RH. Each composite was subject to biodegradation tests in an Azospirillum brasilense BCRC 12270 liquid culture medium. The bacterium completely degraded both the PBSA and the PBSA-g-AA/RH composite films. Morphological observations indicated severe disruption of the film structure after 20–40 days of incubation. The PBSA-g-AA/RH (20 wt%) films were not only more biodegradable than those made of PBSA but also exhibited lower molecular weight and intrinsic viscosity, implying a strong connection between these characteristics and biodegradability.
AbstractList The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate) (PBSA-g-AA) and agricultural residues (rice husk, RH) were evaluated. Composites containing acrylic acid-grafted PBSA (PBSA-g-AA/RH) exhibited noticeably superior mechanical properties compared with those of PBSA/RH due to greater compatibility with RH. The dispersion of RH in the PBSA-g-AA matrix was highly homogeneous as a result of ester formation, and the consequent creation of branched and cross-linked macromolecules, between the carboxyl groups of PBSA-g-AA and hydroxyl groups in RH. Each composite was subject to biodegradation tests in an Azospirillum brasilense BCRC 12270 liquid culture medium. The bacterium completely degraded both the PBSA and the PBSA-g-AA/RH composite films. Morphological observations indicated severe disruption of the film structure after 20–40 days of incubation. The PBSA-g-AA/RH (20wt%) films were not only more biodegradable than those made of PBSA but also exhibited lower molecular weight and intrinsic viscosity, implying a strong connection between these characteristics and biodegradability.
The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate) (PBSA-g-AA) and agricultural residues (rice husk, RH) were evaluated. Composites containing acrylic acid-grafted PBSA (PBSA-g-AA/RH) exhibited noticeably superior mechanical properties compared with those of PBSA/RH due to greater compatibility with RH. The dispersion of RH in the PBSA-g-AA matrix was highly homogeneous as a result of ester formation, and the consequent creation of branched and cross-linked macromolecules, between the carboxyl groups of PBSA-g-AA and hydroxyl groups in RH. Each composite was subject to biodegradation tests in an Azospirillum brasilense BCRC 12270 liquid culture medium. The bacterium completely degraded both the PBSA and the PBSA-g-AA/RH composite films. Morphological observations indicated severe disruption of the film structure after 20-40 days of incubation. The PBSA-g-AA/RH (20 wt%) films were not only more biodegradable than those made of PBSA but also exhibited lower molecular weight and intrinsic viscosity, implying a strong connection between these characteristics and biodegradability.
The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate) (PBSA-g-AA) and agricultural residues (rice husk, RH) were evaluated. Composites containing acrylic acid-grafted PBSA (PBSA-g-AA/RH) exhibited noticeably superior mechanical properties compared with those of PBSA/RH due to greater compatibility with RH. The dispersion of RH in the PBSA-g-AA matrix was highly homogeneous as a result of ester formation, and the consequent creation of branched and cross-linked macromolecules, between the carboxyl groups of PBSA-g-AA and hydroxyl groups in RH. Each composite was subject to biodegradation tests in an Azospirillum brasilense BCRC 12270 liquid culture medium. The bacterium completely degraded both the PBSA and the PBSA-g-AA/RH composite films. Morphological observations indicated severe disruption of the film structure after 20–40 days of incubation. The PBSA-g-AA/RH (20 wt%) films were not only more biodegradable than those made of PBSA but also exhibited lower molecular weight and intrinsic viscosity, implying a strong connection between these characteristics and biodegradability.
Author Wu, Chin-San
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Issue 1
Keywords Biodegradation
Poly(butylene succinate adipate)
Agricultural residues
Composite
Biological properties
Acrylic acid copolymer
Graft copolymer
Biodegradability
Intrinsic viscosity
Mechanical properties
Experimental study
Rice by product
Composite material
Succinate copolymer
Ester copolymer
Morphology
Concentration effect
Reaction mechanism
Agricultural waste
Adipate copolymer
Rheological properties
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Snippet The biodegradability, morphology, and mechanical properties of composite materials consisting of acrylic acid-grafted poly(butylene succinate adipate)...
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SubjectTerms Agricultural residues
Applied sciences
Azospirillum brasilense
bacteria
biodegradability
Biodegradation
Composite
composite materials
Composites
crosslinking
culture media
Exact sciences and technology
films (materials)
Forms of application and semi-finished materials
mechanical properties
molecular weight
Oryza sativa
Poly(butylene succinate adipate)
polyesters
Polymer industry, paints, wood
rice hulls
succinic acid
Technology of polymers
viscosity
Title Characterization and biodegradability of polyester bioplastic-based green renewable composites from agricultural residues
URI https://dx.doi.org/10.1016/j.polymdegradstab.2011.10.012
https://www.proquest.com/docview/1010885687
https://www.proquest.com/docview/2000074860
Volume 97
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