(1) Department of Applied Chemistry, College of Bioscience and Chemistry, Kanazawa Institute of Technology, Ishikawa, Japan
Abstract:
Mixture of starch and amorphous sodium polyborate (SPB) is found to show high flame retardancy, when its aqueous solution
is deposited and dried on organic polymer materials such as polyethylene terephthalate (PET) nonwoven, rigid polyurethane
(RPU) foam, and polypropylene (PP) nonwoven. The PET nonwoven (10 mm thickness) and the RPU foam (10 mm thickness) coated
with the mixture endure the premixed flame of butane gas burner with length of 100 mm for more than 12 min. The PP nonwoven
(0.7 mm thickness) endures the nonpremixed flame with length of 65 mm in the 45 degrees Meckel burner test for more than 2 min.
The backside temperatures in the both tests remain below 130 °C. The thermal analyses and the SEM observation indicate the
mechanism that the SPB foam promotes the carbonization of starch and that the carbonized layer together with the SPB foam
insulate inside from oxygen and heat.