期刊
POLYMERS
卷 13, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/polym13111677
关键词
poly(lactic acid); epoxidized natural rubber; polymer blend; natural additives; antioxidant
资金
- European Social Fund [POWR.03.03.00-00-P019/18]
- European Social Fund (Ministry of Science and Higher Education) [MNiSW/2020/169/DIR/NN4]
This study investigated the possible influence of natural substances on the aging properties of eco-friendly elastic blends of epoxidized natural rubber and poly(lactic acid). It found that curcumin and quercetin are the most promising natural additives that may contribute to delaying material degradation, proving the efficacy of these new natural anti-aging additives through various analyses. The findings open up new opportunities for bio-based and green anti-aging systems in polymer technology.
The aim of this study is to present the possible influence of natural substances on the aging properties of epoxidized natural rubber (ENR) and poly(lactic acid) (PLA) eco-friendly elastic blends. Therefore, the ENR/PLA blends were filled with natural pro-health substances of potentially antioxidative behavior, namely, delta-tocopherol (vitamin E), curcumin, beta-carotene and quercetin. In this way, the material biodeterioration potential was maintained and the material's lifespan was prolonged while subjected to increased temperatures or high-energy UVA irradiation (340 nm). The investigation of the samples' properties indicated that curcumin and quercetin are the most promising natural additives that may contribute to the delay of ENR/PLA degradation under the above-mentioned conditions. The efficiency of the proposed new natural anti-aging additives was proven with static mechanical analysis, color change investigation, as well as mass loss during a certain aging. The aging coefficient, which compares the mechanical properties before and after the aging process, indicated that the ENR/PLA performance after 200 h of accelerated aging might decrease only by approximately 30% with the blend loaded with quercetin. This finding paves new opportunities for bio-based and green anti-aging systems employed in polymer technology.
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