Development and Properties Improvement of Tea Dregs-Based Biodegradable Packaging Formulated with Starch and Poly(Lactic Acid)

Sulkhan Windrayahya, Yudi Pranoto, T. Wittaya
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Abstract

Tea dregs are usually discarded and increase the landfill problem, even though it still contains some fibers that might be used as an alternative fiber source for biodegradable packaging bowl (BPB) production. A novel BPB from tea dregs reinforced with starch and poly (lactic acid) (PLA) was produced in this study by subjecting the mixture to a compression molding with a bowl shape. Tea dregs, starch, and PLA in the ratio of 50:30:20 resulted in the best appearance and highest value of the mechanical properties. Properties improvements with plasticizers, microcrystalline cellulose (MCC), and PLA coating were performed sequentially in the best product ratio, significantly affecting appearance, mechanical, and water absorption properties. Adding sorbitol 5pph, MCC 3pph, and coating with 6% PLA solution improved the product's properties most effectively. These improvements resulted in the best appearance, higher compressive strength, higher hardness value, and lower water absorption. This study concluded that tea dregs could be used as an alternative fiber source in the production of BPB. The addition of plasticizer, MCC, and PLA coating at the optimum concentration can be conducted for the properties improvement of BPB.
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用淀粉和聚乳酸配制的茶渣基生物降解包装的开发与性能改进
茶叶渣通常被丢弃,增加了垃圾填埋问题,尽管其中仍含有一些纤维,可用作生产可生物降解包装碗(BPB)的替代纤维来源。本研究利用茶渣与淀粉和聚(乳酸)(PLA)的混合物进行碗形压缩成型,生产出了一种新型 BPB。茶渣、淀粉和聚乳酸的比例为 50:30:20,其外观最佳,机械性能值最高。按最佳产品比例依次使用增塑剂、微晶纤维素(MCC)和聚乳酸涂层进行性能改进,对外观、机械和吸水性能都有显著影响。添加山梨醇 5pph、微晶纤维素 3pph 和 6% 聚乳酸溶液涂层能最有效地改善产品性能。通过这些改进,产品的外观最佳,抗压强度更高,硬度值更高,吸水率更低。这项研究得出结论,茶叶渣可作为生产 BPB 的替代纤维源。以最佳浓度添加增塑剂、MCC 和聚乳酸涂层可改善 BPB 的性能。
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