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Due to its non-degradability, Bio-based UV absorber trash, such as PET and PE, which is typically utilized in short-term programs such as packaging and throwaway products, accumulates and causes major environmental issues.
In this context, using biodegradable polymers based on sustainable and palatable sources, such as proteins, lipids, and polysaccharides, as opposed to petroleum-based polymers, has emerged as a potential alternative.
These polymers typically included starch, cellulose, polylactic acid, gelatin, soy protein, whey protein, kefiran, chitin, and chitosan. Due to their biodegradability, renewability, affordability, abundance, and superior processing, starchy films stand out above the rest. These films are also non-toxic, tasteless, colorless, and odorless.
Two substances called amylose and amylopectin, which are homopolymers of -glucose, make up starch. Waxy corn starch that has undergone chemical modification offers hope for the manufacture of biodegradable bioplastics.
This work is to study the film performance and microbial enzymatic biodegradation of the film made from chemically modified waxy corn starch according to the effect of pre-gelatinization and cardanol oil with various ratios as a mixed plasticizer with sorbitol.
The preparation of biodegradable bioplastic films from waxy maize acetylated di-starch adipate and waxy maize pregelatinized acetylated di-starch adipate blended with polyvinyl alcohol polymer using sorbitol and cardanol oil mixture as plasticizers were performed.
biodegradability is assessed using an enzyme mixture and a soil burial test. The weight loss reached 96% and the degradation percentage reached 95.5% of PWADA and these results were substantially lower than WADA ; as demonstrated by high-performance liquid chromatography, increasing osmolality is evidence of the.
The Global Bio-based UV absorber market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Clariant launched new additives Bio-based UV absorber to assist the sustainable development of plastics. Surface aesthetics are very important in how consumers judge the quality of consumer goods.
Loco wax AS 100 TP, a new anti-scratch additive from Clariant based on renewable raw materials, helps molded plastic products across a variety of consumer applications retain their original appearance and feel for longer. This has the potential to significantly increase service life while also enhancing property retention and part reuse.
