Superhydrophobic and flame retardant polydimethylsiloxane coatings with layered double hydroxide and ammonium polyphosphate

Abstract

The development of coatings with flame retardancy and superhydrophobicity is of great importance in practical application. Herein, a fluorine-free superhydrophobic and halogen-free flame retardant coating was constructed via simple dip-coating and efficient ultraviolet (UV) curing methods, using heavy cross-linking polydimethylsiloxane networks (HCPDMS) as low-surface-energy materials and hierarchical-structured layered double hydroxide-ammonium polyphosphate (LDH-APP) as organic-inorganic composite flame retardants. Owing to the such combination of hierarchical structure and low surface energy, these prepared coatings show striking repellency to various liquids, great self-cleaning and antifouling ability. Besides, they can resist the abrasion test by sandpaper for 30 cycles, the tape-peeling test for 200 cycles, and repeatedly kneading test. Meanwhile, these coatings offer good thermal stability and flame retardant, exhibiting an enhanced limiting oxygen index (LOI) from 18.0 % to 29.0 %. Moreover, a high oil/water separation efficiency of these coatings is over 95 % even after 16 separation cycles. Equipped with harmless to environment, facile preparation process, and excellent comprehensive performances, these coatings will have the potential for widespread application.