Innovative design of hierarchical cobalt-based borate functionalized black phosphorus structure with petal-like wrinkle: Enhancing the fire safety and mechanical properties of epoxy resin

化学 阻燃剂 烧焦 环氧树脂 烟雾 炭黑 热稳定性 化学工程 极限氧指数 热解 复合材料 材料科学 有机化学 冶金 天然橡胶 工程类
作者
Yifan Zhou,Fukai Chu,Wenhao Yang,Shuilai Qiu,Yuan Hu
出处
期刊:Composites Part B-engineering [Elsevier BV]
卷期号:238: 109886-109886 被引量:48
标识
DOI:10.1016/j.compositesb.2022.109886
摘要

The weak anti-oxidation and smoke-suppression abilities limit the use of black phosphorus (BP) in the preparation of high-performance flame-retardant epoxy resin (EP) composites. Here, aromatic diazonium chemistry was used to graft phenylboronic acid on the surface of few-layer BP nanosheets (BPNSs) to obtain passivated BP-based nanomaterials (BP-DPBA). Then, a novel multifunctional nano flame retardant [email protected] was obtained by anchoring amorphous cobalt-based borate (Co-BO) on the surface of BP-DPBA through a low-temperature reduction reaction. Subsequently, [email protected] was incorporated into EP matrix in the form of nanofillers and formed a mechanically enhanced system. As expected, EP nanocomposites containing 2 wt% [email protected] achieves greatly improvements in thermal stability and fire safety, with 93% increase in char yield (CY) during pyrolysis, 48.4% and 41.7% decrease in peak heat release rate (PHRR) and total heat release (THR) during combustion respectively, a limiting oxygen index (LOI) value up to 32.5% and a UL94 rating of V0. In addition, the presence of Co-BO greatly improves the ability of BP to suppress toxic smoke. Specifically, EP/[email protected] 2.0 achieves a 25.4% reduction in total smoke production (TSP) during combustion. In particular, the maximum 36.2% and 73.2% increases are achieved in storage modulus and impact strength, respectively, confirming that [email protected] can effectively enhance the mechanical properties of EP. Therefore, this work provides a feasible solution for loading high-valence metal compounds on the surface of BPNSs, and prepared high-performance EP nanocomposites with enhanced fire safety and mechanical properties.
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