Design synthesis of melamine amino tris-methylene phosphonate modified halloysite nanotubes for epoxy resin with simultaneously improved flame retardancy, dielectric properties and mechanical performance

High Performance Polymers Pub Date : 2024-05-14 DOI:10.1177/09540083241254540

Wen Zhang, Zhilin Cao, Ling Chao, Zhengzhou Wang

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Abstract

The development of epoxy resin (EP) with simultaneous enhancements in flame retardancy, mechanical performance, and low dielectric properties represents a significant and complex challenge. In this study, halloysite nanotubes (HNTs) were modified with melamine amino tris-methylene phosphonate (MA) to produce MA-modified HNTs (HMA), which were then integrated into EP to form EP/HMA composites. The incorporation of 1 wt% HMA significantly enhanced the flame retardancy (limit oxygen index up to 29.7%, UL-94 V-0 rating), reduced peak heat release rate by 23.4%, decreased total heat release by 11.9%, reduced total smoke production by 18.4%, and improved mechanical properties (tensile strength by 17.0%, impact strength by 61.0%) compared to pure EP. Additionally, EP/HMA showed a low dielectric constant (3.16) and a dielectric loss (0.019) at 1 GHz. This research presents a versatile strategy for creating multifunctional EP composites with high potential for applications in microelectronics, electronic packaging, and other relevant fields.

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设计合成三聚氰胺氨基三亚甲基膦酸盐改性哈洛石纳米管，用于同时改善阻燃性、介电性能和机械性能的环氧树脂

开发同时具有阻燃性、机械性能和低介电性能的环氧树脂（EP）是一项重大而复杂的挑战。在这项研究中，用三聚氰胺氨基三亚甲基膦酸盐（MA）改性哈洛石纳米管（HNTs），生成 MA 改性 HNTs（HMA），然后将其融入 EP 中，形成 EP/HMA 复合材料。与纯 EP 相比，加入 1 wt% 的 HMA 可显著提高阻燃性（极限氧指数高达 29.7%，UL-94 V-0 级），降低 23.4% 的峰值热释放率，降低 11.9% 的总热释放率，降低 18.4% 的总产烟量，并改善机械性能（拉伸强度提高 17.0%，冲击强度提高 61.0%）。此外，EP/HMA 的介电常数较低（3.16），在 1 GHz 时的介电损耗为 0.019。这项研究为制造多功能 EP 复合材料提供了一种多功能策略，在微电子、电子封装和其他相关领域具有很高的应用潜力。

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High Performance Polymers

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