Characterization of Nanocomposites Based on Poly(ε-caprolactone) Filled with Recycled Red Mill Scale

IF 1 4区化学 Q4 POLYMER SCIENCE Polymer Science, Series A Pub Date : 2024-03-25 DOI:10.1134/s0965545x23600382

Leila Djahnit, Samira Maou, Saida Soualmi, Rachid Dellali, Mazouri Bennama, Khaled El-Miloudi

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Abstract

Biodegradable poly(ɛ-caprolactone) (PCL), which is used in bioengineering applications thanks to its mechanical and biodegradable properties, it used as a polymer matrix in this study. The nanocomposite of PCL reinforced with recycled red mill scale PCL/RS has been prepared via ultrasonic mixing by solution casting technique at different amounts of RS (1, 5, 10, and 20 wt %), while virgin PCL was also produced for comparison. The structural, thermal, mechanical, and optical behaviors of PCL/RS nanocomposite films have been investigated. Raman spectroscopy shows that small amounts of particles ≤10 wt % may act as nucleation sites for the growth of polymer crystallites; While large amounts of particles will destroy crystallization zones. Blue shifts in spectrum Raman might be caused by the electronic interactions associated with charge transfer between PCL and RS nanoparticles. The XRD results is in good agreement with the Raman results that the crystallinity of esters increases in PCL/RS 10 wt % film. The melting temperature T_m of the nanocomposites is in the order of PCL/RS 1 wt % (71.1°C) > PCL/RS 5 wt % (71°C) > PCL/RS 10 wt % (70.3°C). We note that it has a resemblance in the values established by DRX and DSC, the crystallinity rate increases with the increase in the filler content 45 < 47 < 69 < 74.5. The nanocomposite materials prepared have UV-protective properties. Tensile results increase with an slight increase in RS filler at 5 wt % is 2 MPa, in comparison with PCL/RS 10 wt % (~1 MPa this result yields flexibility of the film and indicates good dispersion of RS in nanocomposite, resulting better interfacial adhesion.

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基于填充回收红磨鳞片的聚（ε-己内酯）纳米复合材料的表征

摘要可生物降解的聚（ɛ-己内酯）（PCL）因其机械和生物降解特性而被广泛应用于生物工程领域，本研究将其用作聚合物基体。本研究采用溶液浇铸技术，通过超声波混合制备了用回收的红磨轧机鳞片 PCL/RS 增强的 PCL 纳米复合材料，其中 RS 的用量各不相同（1、5、10 和 20 wt %），同时还制备了原生 PCL 作为对比。研究了 PCL/RS 纳米复合薄膜的结构、热、机械和光学行为。拉曼光谱显示，≤10 wt % 的少量颗粒可作为聚合物结晶生长的成核点；而大量颗粒则会破坏结晶区。光谱拉曼的蓝移可能是由于 PCL 和 RS 纳米粒子之间电荷转移相关的电子相互作用引起的。XRD 结果与拉曼结果非常吻合，即 PCL/RS 10 wt % 薄膜中酯的结晶度增加。纳米复合材料的熔化温度 Tm 依次为 PCL/RS 1 wt %（71.1°C）> PCL/RS 5 wt %（71°C）> PCL/RS 10 wt %（70.3°C）。我们注意到，DRX 和 DSC 所确定的值具有相似性，结晶率随着填料含量的增加而增加 45 < 47 < 69 < 74.5。制备的纳米复合材料具有防紫外线性能。与 PCL/RS 10 wt %（~1 MPa）相比，拉伸结果随着 RS 填料含量（5 wt %）的略微增加而增加，达到 2 MPa。

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来源期刊

Polymer Science, Series A 化学-高分子科学

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Polymer Science, Series A is a journal published in collaboration with the Russian Academy of Sciences. Series A includes experimental and theoretical papers and reviews devoted to physicochemical studies of the structure and properties of polymers (6 issues a year). All journal series present original papers and reviews covering all fundamental aspects of macromolecular science. Contributions should be of marked novelty and interest for a broad readership. Articles may be written in English or Russian regardless of country and nationality of authors. All manuscripts are peer reviewed. Online submission via Internet to the Series A, B, and C is available at http://polymsci.ru.