Heat resistive, binder‐free 3d‐dough composite as a highly potent flame‐retardant
Pratik S. Dhumal, Kshama D. Lokhande, Mahesh P. Bondarde, Madhuri A. Bhakare, Surajit Some
Abstract
Abstract We have synthesized sodium polyacrylate and bentonite supported phosphorous functionalized flame retardant (FR) dough material. The dough material has flame retardant and heat insulator properties. The combination of sodium polyacrylate and bentonite provided strength and flexibility, whereas the phosphorus functionalities contributed the flame retardant property to the FR‐dough. The major benefit of the FR‐dough composite is that it can be simply converted into any 3D shape without the use of any binder and can be easily connected to any surface area without the use of any adhesives. The FR‐dough was successfully applied on the wood stick and electric wire for the flame‐retardant test. These coated materials were sustained on the flame for more than 120 s without any damage, while the only sample burnt out within the 40 s. The flame retardancy and heat resistance properties of the material have been confirmed by conducting a Bunsen burner test as the burner can attain a temperature up to 1500°C. The composite also has smoke absorption and self‐healing properties along with flame retardant and heat resistive properties. This approach has a high potential in the mass production of this multifunctional FR‐dough composite.