Abstract:

In this study, the effects of the addition of an ammonia polyfosphate/pentaeritritol (2/1) with a rate of 5, 10 and 15 per cent of the ammonia polyfosphate (pentaeritritol) to the polyurethane powder material on the formation of burning resistance and harmful emissions have been studied by conic calorometer tests. The increase in burning resistance was detected due to the increase in the amount of delayed burning in the bubble material. Furthermore, it has also been determined that due to the increase in the amount of fire delaying, the material is formed during burning and that the emissions of carbon monoxide and nitrogen monoxide, which causes humans to be drowned and poisoned, are also reduced at different rates. Rijit has resulted in a reduction of approximately 40% of the total amount of heat spread, and the maximum nitrogen monoxide emission is below 9 ppm. In this context, the study has concluded that the synthesized cabbage flame delayer can be preferred as an effective flame delayer due to improving burning resistance and harmful emissions for polyurethane powder materials.

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