Patent Issues of Octabromoether Flame Retardants
On July 18, 2017, we were attacked by a fire in British Columbia, Canada. The plane dropped flame retardants. After the fire, we went to the red town of Cashkrik. Is it really important that flame retardants are used to prevent fires? Today let's talk about octabromoether flame retardants!
According to Greek records 450 BC, Greeks impregnated wood in potassium aluminium sulfate solution and found that wood can be given a certain degree of flame retardancy, which is also an earlier record of flame retardancy.
Around 200 B.C., the Romans added vinegar to the potassium aluminium sulfate solution, which improved the durability of the wood as a flame retardant scandium. In 83 BC, ancient Rome reported the application of flame retardant technology in military affairs, and treated wooden castles with octabromoether solution to defend against fire attack. The fortress was protected by coating with hair and clay to avoid being destroyed by arsonic materials. So in the next period of time, octabromoether flame retardant was used incisively and vividly. Nikolas used clay and plaster as fillers, and then added paint to make curtains and clothes get better flame retardancy. The scientist not only studied the flame retardant, but also studied the composition of air, the preparation of water, the law of deuterium volume, the law of gas thermal expansion, and the naming of iodine.
G. Camino described the use of pentaerythritol and ammonium polyphosphate in the intumescent flame retardant system, which also pioneered the study of modern intumescent flame retardants.
The history and events of octabromoether flame retardants are briefly mentioned here. If you want to know more professional knowledge, please continue to pay attention to this site!