Showing total 2 results

1. Antioxidant activity of limonene modified cellulose pulp fiber-polylactic acid (PLA) composites.

Author

Bayer, Gözde, Shayganpour, Amirreza, and Bayer, Ilker S.

Subjects

POLYLACTIC acid, LIMONENE, CELLULOSE, CELLULOSE fibers, IRON chelates, SOFTWOOD

Abstract

Pulp fibers are among the most abundant and cost effective cellulose source for the fabrication of polymer-cellulose composites. A straightforward method is to impregnate pulp fibers into thermoplastic films by hot press forming. As such, tissue materials made from hard or soft wood lignin-free Kraft fibers are attractive. In this work, we prepared cellulose fiber-polylactic acid (PLA) composite films by impregnating PLA films into a 40 g/m2 tissue paper texture. A PLA film was sandwiched between single and multiple layers of cellulose tissues by hot pressing, forming composite films. Up to 40 wt% cellulose could be incorporated into PLA in this way. The effect of cellulose fiber content on the composite thermomechanical properties has been studied and reported. A natural terpene, limonene, was infused into the cellulose fibers by immersion coating to produce antioxidant composites. Limonene-modified composites demonstrated long-term antioxidant release and activity for three days, verified by 2, 2-Diphenyl-1-picrylhydrazyl (DPPH), cupric ion reducing antioxidant capacity (CUPRAC) and free iron ions (Fe2+)/ferrozine chelating assays separately. The short-term (2 h) antioxidant activity of the biocomposites reached 50–70% levels depending on the cellulose fiber concentration for the DPPH and CUPRAC assays but remained lower at 20–55% levels in the metal chelating assay. Due to sustained release of limonene from the composites, at the end of the 5-day period, the iron chelating antioxidant activity of the composites improved reaching 75%, whereas for DPPH and CUPRAC assay, 90% activity was recorded. These biocomposite films can be used in active protective packaging of both food (fruit) and cosmetic products. [ABSTRACT FROM AUTHOR]

Published

2023

2. Inhibition method for the degradation of oil–paper insulation and corrosive sulphur in a transformer using adsorption treatment.

Author

Yang, Lijun, Gao, Sihang, Deng, Bangfei, Zhang, Jiang, Sun, Weidong, and Hu, Ende

Abstract

This study investigated the inhibitory effects of adsorption treatment on the degradation of oil–paper insulation and corrosive sulphur in oil. A thermal ageing experiment at 130°C was conducted using five different adsorbents to adsorb some impurities in oil on the 15th day of a 30 day ageing test, the related characteristics of oil–paper insulation before and after the adsorption treatment were measured and analysed. Meanwhile, a thermal ageing experiment at 150°C was also conducted before using five different adsorbents to adsorb dibenzyl disulphide (DBDS) in oil, energy dispersive X‐ray was used to evaluate the degree of the corrosion of windings. The result indicates that adsorption treatment is an effective method to inhibit the degradation of oil–paper insulation. A molecular sieve, silica gel and activated alumina can effectively improve the performance of oil–paper insulation. By contrast, the antioxidant (2, 6‐di‐tert‐butyl‐p‐cresol) can be also adsorbed by adsorbents, which accelerate the ageing degradation of the insulating oil. On the other hand, the adsorbents can adsorb DBDS in oil, but cannot remove all DBDS. The effect achieved from silica gel is especially significant, which not only effectively improves the performance of oil–paper insulation but also adsorbs DBDS in oil. [ABSTRACT FROM AUTHOR]

Published

2016