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Urea‐formaldehyde (UF) foam is considered to be a potential alternative for commercial polymeric foams due to its intrinsic flame retardancy and inexpensiveness, but it showed high brittleness and low strength, which restricts its wide applications. In this work, glass fiber powder (GF) was selected as the reinforcing filler, and by formation of tailored chemical/mechanical interlocking structure...
Based on the industrialized graphene (GN) product, a series of intrinsic flame‐retardant urea‐formaldehyde/graphene‐silane coupling agent (UF/GN‐SA) nanocomposite foams were fabricated via in situ polymerization and water‐based foaming process. It was found that at low GN content, GN sheets dispersed homogeneously in the foams. Compared with neat UF foam, the composite foam exhibited circular cells...
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