Effect of antibacterial masterbatches selection on the crystal structure and properties of nanosilver composite materials

IF 3.2 4区 工程技术 Q2 ENGINEERING, CHEMICAL
Chengcheng Tian, Yang Li, Li‐Zhi Liu, Yuanxia Wang, Ying Shi
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引用次数: 0

Abstract

The distribution of nanosilver in composite materials with two different matrices is related to the selection of antibacterial masterbatches, which has a profound impact on the antibacterial effectiveness of the composite materials. This study utilized ethylene‐vinyl acetate (EVA) and polypropylene (PP) as base materials to fabricate two types of nanosilver composite materials (C1‐EVA/PP and C2‐EVA/PPP) employing varying methods of antimicrobial masterbatches incorporation. Additionally, EVA‐Ag and PP‐Ag nanosilver composite materials were fabricated via melt blending, along with corresponding neat materials and blends (EVA, PP, and C0‐EVA/PP) for comparison. The study results indicate that the addition of nanosilver did not affect the functional groups of either the neat materials and the EVA/PP blends. SEM analysis revealed that nanosilver was dispersed unevenly in the C1‐EVA/PP substrate, while it was more uniformly distributed in the C2‐EVA/PP substrate. In the antibacterial test, the antibacterial rate of C2‐EVA/PP was higher than that of C1‐EVA/PP (56.0% vs. 40.0%). However, all silver‐containing composite materials did not exhibit antibacterial properties in the agar diffusion test. Additionally, nanosilver exhibited an induced crystallization effect on the PP phase of the C2‐EVA/PP composite material, increasing its Tc2 by 0.8°C. Compared with pure PP, the long period of PP‐Ag increased by 0.7 nm, and its impact resistance improved by 13.8%. By comparison, the long period of EVA‐Ag composite materials increased by only 0.2 nm compared to pure EVA. Both C1‐EVA/PP and C2‐EVA/PP composite materials showed 0.3 nm increase in long period compared to C0‐EVA/PP, with their impact resistance improving by 3.1% and 10.3%, respectively, compared to C0‐EVA/PP. The introduction of nanosilver increased the storage modulus, loss modulus, and apparent viscosity of EVA/PP blends. Optical performance analysis shows that nanosilver increases the internal haze of C1‐EVA/PPP by 60% while reducing the transmittance by 0.3%. The effect of nanosilver on the optical properties of C2‐EVA/PPP composites is relatively small. Therefore, this study provides theoretical guidance for the selection of processing methods for dual‐phase antibacterial materials.Highlights Different antibacterial masterbatch impacts silver distribution in composites. The addition of nanosilver can improve the impact performance of materials. Two process methods were used to prepare low‐silver content composite materials. The antibacterial rate of C2‐EVA/PP is higher than C1‐EVA/PP (56% vs. 40%). This study guides the processing methods for dual‐phase antibacterial materials.
抗菌母料的选择对纳米银复合材料晶体结构和性能的影响
纳米银在两种不同基材的复合材料中的分布与抗菌母料的选择有关,对复合材料的抗菌效果影响深远。本研究以乙烯-醋酸乙烯(EVA)和聚丙烯(PP)为基材,采用不同的抗菌母料添加方法制备了两种纳米银复合材料(C1-EVA/PP 和 C2-EVA/PPP)。此外,还通过熔融共混制造了 EVA-Ag 和 PP-Ag 纳米银复合材料,并与相应的纯材料和共混材料(EVA、PP 和 C0-EVA/PP)进行了比较。研究结果表明,纳米银的添加不会影响纯材料和 EVA/PP 共混物的官能团。扫描电镜分析表明,纳米银在 C1-EVA/PP 基材中分散不均匀,而在 C2-EVA/PP 基材中分布较为均匀。在抗菌测试中,C2-EVA/PP 的抗菌率高于 C1-EVA/PP(56.0% 对 40.0%)。然而,在琼脂扩散试验中,所有含银复合材料都没有表现出抗菌特性。此外,纳米银还对 C2-EVA/PP 复合材料的 PP 相产生了诱导结晶效应,使其 Tc2 上升了 0.8°C。与纯 PP 相比,PP-Ag 的长周期增加了 0.7 nm,抗冲击性提高了 13.8%。相比之下,EVA-Ag 复合材料的长周期仅比纯 EVA 增加了 0.2 nm。与 C0-EVA/PP 相比,C1-EVA/PP 和 C2-EVA/PP 复合材料的长周期均增加了 0.3 nm,其抗冲击性分别提高了 3.1%和 10.3%。纳米银的引入提高了 EVA/PP 共混物的储存模量、损失模量和表观粘度。光学性能分析表明,纳米银使 C1-EVA/PPP 的内部雾度增加了 60%,而透射率降低了 0.3%。纳米银对 C2-EVA/PPP 复合材料光学性能的影响相对较小。因此,本研究为双相抗菌材料加工方法的选择提供了理论指导。添加纳米银可改善材料的抗冲击性能。采用两种工艺制备低银含量复合材料C2-EVA/PP 的抗菌率高于 C1-EVA/PP(56% 对 40%)。这项研究为双相抗菌材料的加工方法提供了指导。
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
Polymer Engineering and Science
Polymer Engineering and Science 工程技术-高分子科学
CiteScore
5.40
自引率
18.80%
发文量
329
审稿时长
3.7 months
期刊介绍: For more than 30 years, Polymer Engineering & Science has been one of the most highly regarded journals in the field, serving as a forum for authors of treatises on the cutting edge of polymer science and technology. The importance of PE&S is underscored by the frequent rate at which its articles are cited, especially by other publications - literally thousand of times a year. Engineers, researchers, technicians, and academicians worldwide are looking to PE&S for the valuable information they need. There are special issues compiled by distinguished guest editors. These contain proceedings of symposia on such diverse topics as polyblends, mechanics of plastics and polymer welding.
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