Designing sandwich-structured IBP nanosheets with superior antioxidant property to enhance corrosion resistance, flame retardancy, and wear resistance for polymeric coatings

IF 11.2 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Science & Technology Pub Date : 2024-07-26 DOI:10.1016/j.jmst.2024.07.023

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Abstract

The rapid development of industrialization requires the advancement of multifunctional coatings. In this study, successful self-assembly of iron porphyrin on BP nanosheets resulted in the synthesis of IBP nanosheets with a sandwich structure. Characterization tests including SEM, XPS, SPM, and XRD confirmed the successful preparation of IBP nanosheets with robust structural stability and antioxidation. Subsequently, a water-based epoxy resin (WEP) coating containing IBP nanosheets was prepared. Test results revealed that the composite coating containing 0.4 wt.% IBP nanosheets exhibited outstanding anti-corrosion, wear-resistant, and flame-retardant properties. After 42 days of immersion in a 3.5 wt.% NaCl solution, the R_ct value of the 4-IBP/WEP coating was 1.79 × 10⁹ Ω cm², surpassing the Pure WEP coating by more than 3 orders of magnitude. Additionally, the peak heat release rate (PHRR) and wear rate of the 4-IBP/WEP coating decreased by 19.29% and 90.97% compared to the Pure WEP coating. This research presents a novel idea for the utilization of BP nanosheets in multifunctional coatings.

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设计具有优异抗氧化性能的夹层结构 IBP 纳米片，以增强聚合物涂层的耐腐蚀性、阻燃性和耐磨性

工业化的快速发展需要多功能涂层的进步。本研究成功地在 BP 纳米片上自组装了铁卟啉，从而合成了具有三明治结构的 IBP 纳米片。包括 SEM、XPS、SPM 和 XRD 在内的表征测试证实了 IBP 纳米片的成功制备，其结构具有很强的稳定性和抗氧化性。随后，制备了含有 IBP 纳米片的水性环氧树脂（WEP）涂层。测试结果表明，含有 0.4 wt.% IBP 纳米片的复合涂层具有出色的防腐、耐磨和阻燃性能。在 3.5 重量%的 NaCl 溶液中浸泡 42 天后，4-IBP/WEP 涂层的 Rct 值为 1.79 × 109 Ω cm2，比纯 WEP 涂层高出 3 个数量级以上。此外，与纯 WEP 涂层相比，4-IBP/WEP 涂层的峰值热释放率 (PHRR) 和磨损率分别降低了 19.29% 和 90.97%。这项研究为在多功能涂层中利用 BP 纳米片提供了一个新思路。

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来源期刊

Journal of Materials Science & Technology 工程技术-材料科学：综合

CiteScore

20.00

自引率

11.00%

发文量

995

审稿时长

13 days

期刊介绍： Journal of Materials Science & Technology strives to promote global collaboration in the field of materials science and technology. It primarily publishes original research papers, invited review articles, letters, research notes, and summaries of scientific achievements. The journal covers a wide range of materials science and technology topics, including metallic materials, inorganic nonmetallic materials, and composite materials.

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