Effects of Light Radiation Absoption on the Resistance of Sweet Potato Starch-Based Bioplastics  

作　　者：Aristide Herlyn Wilfrid Nakavoua Emmanuelle Surya Ouenadio Pascale Ursula Nkoua-Ouassamo Vincent Verney Aristide Herlyn Wilfrid Nakavoua;Emmanuelle Surya Ouenadio;Pascale Ursula Nkoua-Ouassamo;Vincent Verney(Laboratory of Natural Substances Chemistry (IRSEN), Brazzaville, Congo;Laboratory for The Valorisation of Agri-Resources, Ecole Normale Superieure Politechnique (ENSP), Marien Ngouabi University, Brazzaville, Congo;UMR 6296 Team Design of Polymers and Macromolecules Scientist Set Cézeaux, Institute of Chemistry of Clermont-Ferrand (ICCF), Clermont-Ferrand, French)

机构地区：[1]Laboratory of Natural Substances Chemistry (IRSEN), Brazzaville, Congo [2]Laboratory for The Valorisation of Agri-Resources, Ecole Normale Superieure Politechnique (ENSP), Marien Ngouabi University, Brazzaville, Congo [3]UMR 6296 Team Design of Polymers and Macromolecules Scientist Set Cézeaux, Institute of Chemistry of Clermont-Ferrand (ICCF), Clermont-Ferrand, French

出　　处：《Journal of Materials Science and Chemical Engineering》2022年第2期44-52,共9页材料科学与化学工程（英文）

摘　　要：The strength of starch-based bioplastics is a challenge, we tried to overcome this limitation by using electromagnetic radiation in the visible range. Synthetically obtained retrograde bioplastics were subjected to radiation from an Edison-type incandescent lamp. A cross-linked network is obtained within the bioplastic matrix considerably attenuating the usual hygroscopicity of starch and increasing the ability to resist rupture. After this positive behavior, the bioplastics were colored in order to optimize the action of light radiation. The results show a stronger and more compact bioplastic. The green-colored bioplastics show the best performance in the optimization of the resistance.The strength of starch-based bioplastics is a challenge, we tried to overcome this limitation by using electromagnetic radiation in the visible range. Synthetically obtained retrograde bioplastics were subjected to radiation from an Edison-type incandescent lamp. A cross-linked network is obtained within the bioplastic matrix considerably attenuating the usual hygroscopicity of starch and increasing the ability to resist rupture. After this positive behavior, the bioplastics were colored in order to optimize the action of light radiation. The results show a stronger and more compact bioplastic. The green-colored bioplastics show the best performance in the optimization of the resistance.

关 键 词：BIOPLASTICS STARCH Sweet Potato Radiation and Light Stress 

分 类 号：P73[天文地球—海洋科学]