Impact of Buriti Oil from Mauritia flexuosa Palm Tree on the Rheological, Thermal, and Mechanical Properties of Linear Low-Density Polyethylene for Improved Sustainability.

IF 4.7 3区工程技术 Q1 POLYMER SCIENCE

Polymers Pub Date : 2024-10-29 DOI:10.3390/polym16213037

Odilon Leite-Barbosa, Marcelo Ferreira Leão de Oliveira, Fernanda Cristina Fernandes Braga, Sergio Neves Monteiro, Marcia Gomes de Oliveira, Valdir Florêncio Veiga-Junior

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Abstract

Recent advancements highlight the utilization of vegetable oils as additives in polymeric materials, particularly for replacing conventional plasticizers. Buriti oil (BO), extracted from the Amazon's Mauritia flexuosa palm tree fruit, boasts an impressive profile of vitamins, minerals, proteins, carotenoids, and tocopherol. This study investigates the impact of incorporating buriti oil as a plasticizer in linear low-density polyethylene (LLDPE) matrices. The aim of this research was to evaluate how buriti oil, a bioactive compound, influences the thermal and rheological properties of LLDPE. Buriti oil/LLDPE compositions were prepared via melt intercalation techniques, and the resulting materials were characterized through thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), Fourier-transform infrared (FTIR) spectroscopy, scanning electron microscopy (SEM), mechanical property testing, and contact angle measurement. The addition of buriti oil was found to act as a processing aid and plasticizer, enhancing the fluidity of LLDPE polymer chains. TGA revealed distinct thermal stabilities for buriti oil/LLDPE under different degradation conditions. Notably, buriti oil exhibited an initial weight loss temperature of 402 °C, whereas that of LLDPE was 466.4 °C. This indicated a minor reduction in the thermal stability of buriti oil/LLDPE compositions. The thermal stability, as observed through DSC, displayed a nuanced response to the oil's incorporation, suggesting a complex interaction between the oil and polymer matrix. Detailed mechanical testing indicated a marked increase in tensile strength and elongation at break, especially at optimal concentrations of buriti oil. SEM analysis showcased a more uniform and less brittle microstructure, correlating with the enhanced mechanical properties. Contact angle measurements revealed a notable shift in surface hydrophobicity, indicating a change in the surface chemistry. This study demonstrates that buriti oil can positively influence the processability and thermal properties of LLDPE, thus expanding its potential applications as an effective plasticizer.

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Mauritia flexuosa 棕榈树的 Buriti 油对线性低密度聚乙烯流变、热和机械特性的影响，以提高可持续性。

植物油作为聚合材料的添加剂，特别是用于替代传统增塑剂的应用，最近取得的进展令人瞩目。Buriti 油（BO）是从亚马逊的 Mauritia flexuosa 棕树果实中提取的，它含有丰富的维生素、矿物质、蛋白质、类胡萝卜素和生育酚。本研究调查了在线性低密度聚乙烯（LLDPE）基质中加入布里提油作为增塑剂的影响。这项研究的目的是评估布里提油这种生物活性化合物如何影响 LLDPE 的热性能和流变性能。通过熔融插层技术制备了布里提油/LLDPE 组合物，并通过热重分析 (TGA)、差示扫描量热法 (DSC)、傅立叶变换红外光谱 (FTIR)、扫描电子显微镜 (SEM)、机械性能测试和接触角测量对所得材料进行了表征。研究发现，添加布里提油可作为加工助剂和增塑剂，提高 LLDPE 聚合物链的流动性。热重分析显示，在不同的降解条件下，buriti 油/LLDPE 具有不同的热稳定性。值得注意的是，buriti 油的初始失重温度为 402 ℃，而 LLDPE 的初始失重温度为 466.4 ℃。这表明 Buriti 油/LLDPE 组合物的热稳定性略有降低。通过 DSC 观察到的热稳定性对油的加入有细微的反应，这表明油和聚合物基质之间存在复杂的相互作用。详细的机械测试表明，拉伸强度和断裂伸长率明显增加，尤其是在最佳的柚木油浓度下。扫描电子显微镜分析表明，微观结构更均匀，脆性更小，这与增强的机械性能相关。接触角测量显示表面疏水性发生了显著变化，表明表面化学性质发生了改变。这项研究表明，布里提油可以对低密度聚乙烯的加工性和热性能产生积极影响，从而扩大了其作为一种有效增塑剂的潜在应用范围。

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

Polymers POLYMER SCIENCE-

CiteScore

8.00

自引率

16.00%

发文量

4697

审稿时长

1.3 months

期刊介绍： Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.