Enzymatic Degradation of Fiber-Reinforced PLA Composite Material

Macromol Pub Date : 2022-10-27 DOI:10.3390/macromol2040033

E. Urinov, S. Hanstein, A. Weidenkaff

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Abstract

Application of thermoplastic fiber-reinforced lightweight composite materials provides a wide range of advantages that are of particular importance for the mobility sector. UD tapes composed of unidirectionally (UD) oriented inorganic fibers embedded in a thermoplastic matrix represent light-weight materials with high tensile strength. This publication addresses recycling aspects of novel UD tape made of a combination of basalt fibers and different PLA (polylactic acid) formulations. The kinetics of enzyme-based separation of polymer from the fiber were investigated. Different types of UD tapes with a thickness of 270–290 µm reinforced with basalt fiber weight ratios ranging between 51 and 63% were incubated at 37 °C in buffer solution (pH 7.4) containing proteinase K. The influence of enzyme concentration, tape weight per incubation tube, proteinase K activators, and tape types on the rate of enzymatic decomposition was investigated. Enzyme activity was measured by analyzing lactate concentration with lactate dehydrogenase and by measuring weight loss of the composite material. The rate of lactate release increased in the first 30 min of incubation and remained stable for at least 90 min. Weight loss of 4% within 4 h was achieved for a tape with 56% (w/w) fiber content. For a sample with a surface area of 3 cm2 in a buffer volume of 10 mL, the rate of lactate release as a function of enzyme concentration reached saturation at 300 µg enzyme/mL. With this enzyme concentration, the rate of lactate release increased in a linear manner for tape surface areas between 1 and 5 cm2. Four tapes with different PLA types were treated with the enzyme for 17 h. Weight loss ranged between 7 and 24%. Urea at a concentration of 0.5% (w/v) increased lactate release by a factor of 9. Pretreatment of tapes in alkaline medium before enzymatic degradation increased weight loss to 14% compared to 5% without pretreatment. It is concluded that enzymatic PLA hydrolysis from UD tapes is a promising technology for the release of basalt fibers after alkaline pretreatment or for the final cleaning of basalt fibers.

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纤维增强PLA复合材料的酶解研究

热塑性纤维增强轻质复合材料的应用提供了广泛的优势，这对移动领域特别重要。由嵌入热塑性基体的单向定向无机纤维组成的UD带是具有高拉伸强度的轻质材料。本出版物解决了由玄武岩纤维和不同PLA(聚乳酸)配方组合而成的新型UD胶带的回收问题。研究了聚合物与纤维的酶基分离动力学。在含蛋白酶K的缓冲液(pH 7.4)中，37℃孵育不同类型的厚度为270-290µm、玄武岩纤维重量比为51 - 63%的UD胶带，研究酶浓度、每个孵育管的胶带重量、蛋白酶K活化剂和胶带类型对酶分解率的影响。通过乳酸脱氢酶分析乳酸浓度和测定复合材料的失重来测定酶活性。乳酸释放率在孵育前30分钟增加，并在至少90分钟内保持稳定。纤维含量为56% (w/w)的胶带在4小时内体重减轻4%。对于表面积为3cm2的样品，缓冲体积为10ml，乳酸释放速率作为酶浓度的函数在300µg酶/mL时达到饱和。在此酶浓度下，乳酸释放率在1 ~ 5cm2的胶带表面呈线性增加。四种不同PLA类型的胶带用酶处理17小时，失重幅度在7%到24%之间。浓度为0.5% (w/v)的尿素使乳酸释放增加了9倍。在酶降解前在碱性介质中进行预处理，使胶带的失重率提高到14%，而未进行预处理的胶带的失重率为5%。综上所述，从UD带中酶解聚乳酸是一种很有前途的技术，可用于玄武岩纤维碱预处理后的释放或玄武岩纤维的最终清洗。

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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来源期刊

Macromol

CiteScore

5.20

自引率

0.00%

发文量