THE APPLICATION OF RICE STRAW-BASED PLA/NR BIOCOMPOSITE AS GREEN PLANTING BAGS

Suranaree Journal of Science and Technology Pub Date : 2023-11-16 DOI:10.55766/sujst-2023-05-e02618

P. Chumsamrong, Wachirabhorn Pongputthipat, Y. Ruksakulpiwat

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Abstract

This study’s primary objective was to observe the growth of marigold seedling in biodegradable planting bags made from polylactic acid (PLA), natural rubber (NR), and rice straw (RS) film, as well as the biodegradation of the bags during planting. The flexible PLA/NR/RS film was produced using a PLA/NR blend ratio of 70:30 percent by weight (wt%) as a matrix and filled with RS at 3, 5, and 10 wt%. All PLA/NR/RS biocomposite films were produced via an extrusion casting method. To examine the growth efficiency of marigold seedlings in biodegradable planting bags, marigold seedlings were transferred into PLA/NR/RS biocomposite bags. After being planted for 90-days, the stalk diameter and dry mass of the marigold seedlings grown in the PLA/NR/RS biocomposite bags tended to increase with increasing RS content. The biodegradability of all PLA/NR/RS biocomposite bags was measured by how much weight each bag lost after marigold seedlings were planted in it. The amount of rice straw in PLA/NR/RS biocomposite bags was found to affect how much weight they lost. Maximum weight loss was observed when the film contained 10 wt% RS fiber, which corresponded to the lowest PLA molecular weight assessed by gel permeation chromatography (GPC).

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应用稻草基 pla/nr 生物复合材料作为绿色种植袋

本研究的主要目的是观察万寿菊幼苗在由聚乳酸（PLA）、天然橡胶（NR）和稻草（RS）薄膜制成的可生物降解种植袋中的生长情况，以及种植过程中种植袋的生物降解情况。柔性聚乳酸/天然橡胶/稻草膜是以重量比为 70:30% 的聚乳酸/天然橡胶混合物为基体，并以 3、5 和 10% 的重量比填充 RS 而制成的。所有聚乳酸/NR/RS 生物复合膜都是通过挤压铸造法生产的。为了检测万寿菊幼苗在可生物降解种植袋中的生长效率，将万寿菊幼苗移入聚乳酸/NR/RS 生物复合材料袋中。种植 90 天后，在聚乳酸/NR/RS 生物复合袋中生长的万寿菊幼苗的茎秆直径和干质量随着 RS 含量的增加而增加。所有聚乳酸/NR/RS 生物复合袋的生物降解性都是通过万寿菊秧苗种植后每个袋子的重量损失来衡量的。研究发现，聚乳酸/NR/RS 生物复合袋中稻草的含量会影响袋子的重量损失。当薄膜中含有 10 wt% 的 RS 纤维时，重量损失最大，这与凝胶渗透色谱法（GPC）评估的最低聚乳酸分子量相对应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Suranaree Journal of Science and Technology

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