Nanofiller reinforced biodegradable PHA/PLA composites: physico-chemical, thermal and dielectric properties

In this study, the electrical, thermal, morphological and physical properties of polyhydroxyalkanoate (PHA) and polylactic acid (PLA) blends and its nanocomposites prepared in different content of montmorillonite (3%wt, 5%wt, 7%wt) were investigated. Biodegradable blends of PHA/PLA were prepared in...

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Bibliographic Details
Published in:Journal of polymer research 2021-12, Vol.28 (12), Article 452
Main Authors: Torğut, Gülben, Gürler, Nedim
Format: Article
Language:English
Subjects:
Biodegradability
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Dielectric loss
Dielectric properties
Differential thermal analysis
Differential thermogravimetric analysis
Electrical resistivity
Fourier transforms
Industrial Chemistry/Chemical Engineering
Infrared analysis
Mixtures
Montmorillonite
Morphology
Nanocomposites
Original Paper
Physical properties
Polyhydroxyalkanoates
Polylactic acid
Polymer Sciences
Room temperature
Scanning electron microscopy
Stability analysis
Thermal stability
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Summary:In this study, the electrical, thermal, morphological and physical properties of polyhydroxyalkanoate (PHA) and polylactic acid (PLA) blends and its nanocomposites prepared in different content of montmorillonite (3%wt, 5%wt, 7%wt) were investigated. Biodegradable blends of PHA/PLA were prepared in different compositions ranging from 30–70%. Nanocomposite films were analyzed by Fourier Transform Infrared (FTIR), Thermogravimetric Analysis (TGA), Differential Thermal Analysis (DTA) and scanning electron microscopy for morphology (SEM). The effects of the amount of MMT used as a reinforcing filler on the morphology, color, opacity, thermal stability, and dielectric properties of PHA/PLA films were investigated. SEM analyses showed good interaction between MMT and PHA/PLA film. As the MMT concentration increases, the transparency of the films decreases. In addition, MMT has improved thermal stability. Also, the dielectric properties and electrical conductivity of nanocomposite films were studied. The measurements were performed at frequencies between 100 Hz to 10 kHz at room temperature. As the frequency increased, dielectric permittivity (έ), the dielectric loss (ε'') and the electrical conductivity (σ) decreased and remain constant at high frequencies. έ, ε'' and the σ increased with increasing MMT content.
ISSN:1022-9760
1572-8935
DOI:10.1007/s10965-021-02816-3