Rigid polyurethane foam composites based on iron tailing: Thermal stability, flame retardancy and fire toxicity

热重分析 材料科学 聚氨酯 烧焦 极限氧指数 阻燃剂 复合材料 热稳定性 热分解 锥形量热计 燃烧 扫描电子显微镜 化学工程 化学 有机化学 工程类
作者
Yadong Yang,Haifeng Shen,Yu‐Zhou Luo,Renhui Zhang,Junjie Sun,Xiuyu Liu,Zhifang Zong,Gang Tang
出处
期刊:Cellular Polymers [SAGE Publishing]
卷期号:41 (5): 189-207 被引量:8
标识
DOI:10.1177/02624893221105317
摘要

In order to explore the potential utilization value of iron tailings, the typical solid waste-iron tailings was introduced into rigid polyurethane foam (RPUF) as a flame retardant filler in this paper. The flame retardant performance, combustion performance, gas-phase products and char residue’s related properties of RPUF/ITS composites were systematically investigated by limiting oxygen index, thermogravimetric (TG), cone calorimetry (CCT) and thermogravimetric-infrared spectrometry (TG-FTIR). The results showed that ITS improved the overall thermal stability of the composites, and the T -5% , T -50% , T max1 , T max2 and char residue rates were all higher than those of the pure samples. The CCT indicated that ITS had a certain effect on smoke suppression and heat release reduction. The peak heat release rate of RPUF-6 was reduced by 22.75% compared with that of the pure sample, and the total smoke release of RPUF-2 was reduced by 25.36%. Smoke factor (SF), fire growth rate index and fire performance index indicated that ITS reduced the fire risk of RPUF/ITS composites. TG-FTIR showed that ITS inhibited the decomposition of RPUF/ITS composites, and the release intensity of hydrocarbons, CO 2 , isocyanate compound, CO, aromatic compounds and esters decreased significantly. TG, MCC, scanning electron microscope and Raman implied that ITS promoted the formation of a dense char layer in RPUF and improved the heat resistance of the char layer.
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