Biodegradable Behavior of Waste Wool and Their Recycled Polyester Preforms in Aqueous and Soil Conditions

Present study deals with the biodegradable behavior of individual components and their preforms of nonwoven biocomposites developed from waste wool fibers including coring wool (CW), dorper wool (DW) and recycled polyester fibers (RPET). A respirometric technique was employed to estimate the product...

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Bibliographic Details
Published in:Journal of renewable materials 2021-01, Vol.9 (10), p.1661-1671
Main Authors: Muniyasamy, Sudhakar, Patnaik, Asis
Format: Article
Language:English
Subjects:
Aldehydes
Aqueous solutions
Biocomposites
Biodegradability
Biodegradation
Biomedical materials
Carbon dioxide
Carbon dioxide emissions
Carbonyl compounds
Carbonyls
Chromium
Composite materials
Core analysis
Coring
Emission measurements
Fibers
Formaldehyde
Fourier transforms
Functional groups
Infrared analysis
Infrared spectroscopy
Leaching
Leaching Chemicals
Polyesters
Preforms
Soil conditions
Soils
Synthetic Polyesters
Waste Woolfi Bers
Wool
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Summary:Present study deals with the biodegradable behavior of individual components and their preforms of nonwoven biocomposites developed from waste wool fibers including coring wool (CW), dorper wool (DW) and recycled polyester fibers (RPET). A respirometric technique was employed to estimate the production of CO2 during the biodegradation experiments under soil and aqueous media conditions. Functional groups of test samples before and after biodegradation were analyzed using Fourier transform infrared spectroscopy (FTIR). Leaching chemicals such as formaldehyde (hydrolyzed) and Chromium VI (Cr VI) was also measured. The CO2 emission in wool fibers CW and DW indicated 90% and 60% biodegradation in soil burial and aqueous media conditions respectively, for 100 days incubation. RPET fibers, 20% and 10% biodegradation in soil burial and aqueous media conditions was measured respectively while the preforms of waste wool and RPET reflected 30% and 25% biodegradation in soil burial and aqueous media conditions, respectively. The degradation of end functional groups such as carbonyl (keto and ester), aldehyde and hydroxyl were also confirmed by FTIR. The DW and CW wool fibers showed higher Cr(VI) concentration as compared to the RPET. The released formaldehyde results showed higher concentration for RPET preforms as compared to waste wool preforms. These results suggest that waste wool preforms are extremely environment friendly as compared to RPET preforms. Thus, waste wool preforms it can be potentially utilized for preparing biocomposite materials and associated biobased products.
ISSN:2164-6325
2164-6341
2164-6341
DOI:10.32604/jrm.2021.014904