离子液体基阻燃硬质聚氨酯泡沫的热解过程分析

IF 5.9 3区 工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY
Zhirong Xu , Jing Zhan , Zihui Xu , Xiaowei Mu
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引用次数: 0

摘要

在本研究中,通过加入15wt%的聚磷酸铵(APP)和离子液体(1-丁基-2,3-二甲基咪唑四氟硼酸盐,缩写为B4F)制备了阻燃聚氨酯硬质泡沫。使用垂直燃烧(UL-94)、极限氧指数(LOI)、锥形量热计(cone)和热重分析仪(TG)测试评估了该材料的阻燃性和热稳定性。此外,还利用扫描电子显微镜(SEM)、拉曼光谱(Raman)和X射线光电子能谱(XPS)研究了燃烧后碳层的阻燃机理。实验结果表明,在阻燃型聚氨酯(RPUF/14APP/1B4F)中加入1wt%B4F显著提高了垂直燃烧试验的性能,使其从V-1级提高到V-0级。这种改进归因于材料的石墨化程度的提高,如无定形碳与石墨碳的比率(ID/IG)从2.68降低到1.38所证明的。XPS分析表明,与RPUF/15APP(1.84)相比,RPUF/14APP/1B4F在残余碳中表现出更高的C/O比(3.03),表明B4F有效地增强了阻燃材料的抗氧化性能。在空气气氛下,RPUF/14APP/1B4F在800℃时表现出增加的成焦率(21.24%),比RPUF/15APP高71.01%。B4F和APP之间的相互作用导致聚氨酯中形成了更稳定的炭层结构,进一步增强了其阻燃性。总之,RPUF/14APP/1B4F表现出协同阻燃效果和增强的热稳定性。B4F的加入提高了材料的石墨化程度,提高了残余碳中的C/O比,增强了体系的抗氧化性能。此外,B4F和APP之间的相互作用促进了更稳定的焦层的形成,有效地提高了聚氨酯的阻燃性能。这些发现为开发在各种应用中具有改进消防安全性的先进阻燃聚氨酯材料提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of the pyrolysis process of ionic liquid-based flame retardant rigid polyurethane foam

In this study, flame retardant polyurethane rigid foam was prepared by incorporating 15 wt% ammonium polyphosphate (APP) and ionic liquid (1-butyl-2,3-dimethylimidazolium tetrafluoroborate, abbreviated as B4F). The flame retardant and thermal stability of the material were evaluated using vertical combustion (UL-94), limiting oxygen index (LOI), cone calorimeter (CONE), and thermogravimetric analyzer (TG) tests. Additionally, scanning electron microscopy (SEM), Raman spectroscopy (Raman), and X-ray photoelectron spectroscopy (XPS) were utilized to explore the flame retardancy mechanism in the carbon layer after combustion. The experimental results showed that the addition of 1 wt%B4F and 14 wt% APP to the polyurethane (RPUF/14APP/1B4F) significantly improved the vertical combustion test, upgrading it from the V-1 level to the V-0 level. This improvement was attributed to the increased degree of graphitization of the material, as evidenced by the reduced ratio of amorphous carbon to graphitic carbon (ID/IG) from 2.68 to 1.38. XPS analysis revealed that RPUF/14APP/1B4F exhibited a higher C/O ratio in the residual carbon (3.03) compared to RPUF/15APP (1.84), indicating that B4F effectively enhanced the antioxidant properties of the flame-retardant materials. Under the air atmosphere, RPUF/14APP/1B4F demonstrated an increased char formation at 800 °C (21.24 %), which was 71.01 % higher than RPUF/15APP. The interaction between B4F and APP led to the formation of a more stable char layer structure in polyurethane, further enhancing its flame retardancy. In conclusion, the RPUF/14APP/1B4F demonstrated a synergistic flame retardancy effect and enhanced thermal stability. The addition of B4F improved the graphitization degree of the material and increased the C/O ratio in the residual carbon, enhancing the antioxidant properties of the system. Moreover, the interaction between B4F and APP promoted the formation of a more stable char layer, effectively improving the flame retardant properties of the polyurethane. These findings provide valuable insights for the development of advanced flame retardant polyurethane materials with improved fire safety in various applications.

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来源期刊
CiteScore
10.40
自引率
6.60%
发文量
639
审稿时长
29 days
期刊介绍: Journal of Industrial and Engineering Chemistry is published monthly in English by the Korean Society of Industrial and Engineering Chemistry. JIEC brings together multidisciplinary interests in one journal and is to disseminate information on all aspects of research and development in industrial and engineering chemistry. Contributions in the form of research articles, short communications, notes and reviews are considered for publication. The editors welcome original contributions that have not been and are not to be published elsewhere. Instruction to authors and a manuscript submissions form are printed at the end of each issue. Bulk reprints of individual articles can be ordered. This publication is partially supported by Korea Research Foundation and the Korean Federation of Science and Technology Societies.
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