Emerging trends in flame retardancy of rigid polyurethane foam and its composites: A review

聚氨酯 材料科学 可燃性 复合材料 膨胀的 聚磷酸铵 阻燃剂 保温 火焰蔓延 燃烧 图层(电子) 化学 有机化学
作者
Abdulwasiu Muhammed Raji,Hambali Umar Hambali,Zahid Iqbal Khan,Zurina Mohamad,Azman Hassan,Raphael Ogabi
出处
期刊:Journal of Cellular Plastics [SAGE Publishing]
卷期号:59 (1): 65-122 被引量:32
标识
DOI:10.1177/0021955x221144564
摘要

Owing to the superior thermal insulating attributes of rigid polyurethane foam (RPUF) compared to other insulating materials (expanded and extruded polystyrene, mineral wool), it remains the most dominant insulating material and most studied polymer foam. Like other polyurethane foam, RPUF is highly flammable, necessitating the incorporation of flame retardants (FR) during production to lower combustibility, promoting its continuous use as insulation material in construction, transportation, and others. The popular approaches for correcting the high flammability of RPUF are copolymerization and blending (with FR). The second method has proven to be most effective as there are limited trade-offs in RPUF properties. Meanwhile, the high flammability of RPUF is still a significant hindrance in emerging applications (sensors, space travel, and others), and this has continuously inspired research in the flame retardancy of RPUF. In this study, properties, and preparation methods of RPUF are described, factors responsible for the high flammability of PUF are discussed, and flame retardancy of RPUF is thoroughly reviewed. Notably, most FR for RPUF are inorganic nanoparticles, lignin, intumescent FR systems of expandable graphite (EG), ammonium polyphosphate (APP), and hybridized APP or EG with other FR. These could be due to their ease of processing, low cost, and being environmentally benign. Elaborate discussion on RPUF FR mechanisms were also highlighted. Lastly, a summary and future perspectives in fireproofing RPUF are provided, which could inspire the design of new FR for RPUF.
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