Flame behaviour of magnesium and aluminium hydroxide-filled polymer composites used in power and telecom cables

Abstract: The effect of flame contact on Low Smoke Zero Halogen (LS0H) polyethylene-based model composite used for power cable has been investigated, focusing the attention on the fate of aluminium trihydroxide (ATH) and magnesium dihydroxide (MDH) utilized as flame retardant fillers. By using a flame reproducing the calorific value of EU CPR Regulation, during the contact with flame, the composite with magnesium hydroxide shows the formation of intermediate carbonate, which further decomposes giving the oxide. The same… Show more

“…MH decomposes thermally to form magnesium oxide (MgO) and water vapor [91]. The decomposition temperature of MH is higher than that of ATH, making MH more efficient as a flame retardant [92]. However, the cost of the material should be taken into consideration, as MH is more expensive than ATH.…”

Recent Advances in Battery Pack Polymer Composites

“…MH decomposes thermally to form magnesium oxide (MgO) and water vapor [91]. The decomposition temperature of MH is higher than that of ATH, making MH more efficient as a flame retardant [92]. However, the cost of the material should be taken into consideration, as MH is more expensive than ATH.…”

Recent Advances in Battery Pack Polymer Composites

A quantitative coupling pyrolysis mechanism modeling of flame-retardant composites and their bubbling, breaking, charring behaviors

Flammability degradation behavior and ageing mechanism of flame-retardant cable sheath under different ageing conditions