A. Witkowski scite author profile

Endothermically decomposing mineral fillers, such as aluminium or magnesium hydroxide, magnesium carbonate, or mixed magnesium/calcium carbonates and hydroxides, such as naturally occurring mixtures of huntite and hydromagnesite are in heavy demand as sustainable, environmentally benign fire retardants. They are more difficult to deploy than the halogenated flame retardants they are replacing, as their modes of action are more complex, and are not equally effective in different polymers. In addition to their presence (at levels up to 70%), reducing the flammable content of the material, they have three quantifiable fire retardant effects: heat absorption through endothermic decomposition; increased heat capacity of the polymer residue; increased heat capacity of the gas phase through the presence of water or carbon dioxide. These three contributions have been quantified for eight of the most common fire retardant mineral fillers, and the effects on standard fire tests such as the LOI, UL 94 and cone calorimeter discussed. By quantifying these estimable contributions, more subtle effects, which they might otherwise mask, may be identified.

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Thermal Decomposition of Polymeric Materials

Witkowski

Stec

Hull

2016

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The influence of metal hydroxide fire retardants and nanoclay on the thermal decomposition of EVA

Witkowski

Stec

Hull

2012

Polymer Degradation and Stability

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Development of a pyrolysis model for corrugated cardboard

McKinnon

Stoliarov

Witkowski

2013

Combustion and Flame

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Development of an anaerobic pyrolysis model for fire retardant cable sheathing materials

Witkowski

Girardin

Försth

et al. 2015

Polymer Degradation and Stability

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A. Witkowski

Fire retardant action of mineral fillers

Thermal Decomposition of Polymeric Materials

The influence of metal hydroxide fire retardants and nanoclay on the thermal decomposition of EVA

Development of a pyrolysis model for corrugated cardboard

Development of an anaerobic pyrolysis model for fire retardant cable sheathing materials

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