Add to ORKGVolatilisation of mixtures of high density polyethylene (PE) with a fire retardant chloroparaffin (CP) occurs in two separate steps on programmed heating. CP eliminates HCl at 250-370°C whilst, at 400-530°C, hydrocarbons are formed by quantitative volatilisation of PE. However, chlorine radicals which propagate the thermal dehydro-chlorination of CP induce crosslinking of PE. Furthermore, in the presence of CP, a larger ratio of saturated to unsaturated hydrocarbons is obtained than from PE alone. The fire retardant activity of CP in PE-CP mixtures, although slight, is likely to be of the 'condensed phase' type. This is in agreement with the separate evolution of the flame inhibitor HCl, and flammable hydrocarbons and with the change in the...
It is shown that, by the addition of a typical intumescent mixture of ammonium polyphosphate and pen...
The behaviour of composite materials in fire is governed largely by the chemical processes involved ...
High Density Polyethylene (HDPE) is a highly flammable compound. Finding a method to reduce HDPE\u27...
When polypropylene is thermally degraded in mixtures with a highly chlorinated fire retardant chloro...
Evidence is given that the thermal behaviour of a mixture of polypropylene and a fire retardant chlo...
The thermal degradation of polypropylene is accelerated when it is heated in mixtures with a fire re...
In mixtures of polystyrene with a fire retardant chloroparaffin, the rate of volatilisation of the p...
The mechanism by which a typical fire retardant chloroparaffin imparts fire retardant characteristic...
From oxygen and nitrous oxide indices of polypropylene-chlorinated paraffin mixtures it can be deduc...
The composition of the products formed by the thermal degradation of PS is modified by the presence ...
The mechanisms of reactions which occur on heating mixtures of Bi compounds and a chloroparaffin, wh...
The characteristics of the evolution of the flame inhibitors HCl and metal chlorides from thermally ...
Interactions are shown to take place between ammonium polyphosphate and pentaerythritol in thermally...
Phosphorus-based flame retardants were incorporated into different, easily preparable matrices, such...
Most of unwanted fires are fuelled by polymeric materials, ranging from natural polymers found in wo...
It is shown that, by the addition of a typical intumescent mixture of ammonium polyphosphate and pen...
The behaviour of composite materials in fire is governed largely by the chemical processes involved ...
High Density Polyethylene (HDPE) is a highly flammable compound. Finding a method to reduce HDPE\u27...
When polypropylene is thermally degraded in mixtures with a highly chlorinated fire retardant chloro...
Evidence is given that the thermal behaviour of a mixture of polypropylene and a fire retardant chlo...
The thermal degradation of polypropylene is accelerated when it is heated in mixtures with a fire re...
In mixtures of polystyrene with a fire retardant chloroparaffin, the rate of volatilisation of the p...
The mechanism by which a typical fire retardant chloroparaffin imparts fire retardant characteristic...
From oxygen and nitrous oxide indices of polypropylene-chlorinated paraffin mixtures it can be deduc...
The composition of the products formed by the thermal degradation of PS is modified by the presence ...
The mechanisms of reactions which occur on heating mixtures of Bi compounds and a chloroparaffin, wh...
The characteristics of the evolution of the flame inhibitors HCl and metal chlorides from thermally ...
Interactions are shown to take place between ammonium polyphosphate and pentaerythritol in thermally...
Phosphorus-based flame retardants were incorporated into different, easily preparable matrices, such...
Most of unwanted fires are fuelled by polymeric materials, ranging from natural polymers found in wo...
It is shown that, by the addition of a typical intumescent mixture of ammonium polyphosphate and pen...
The behaviour of composite materials in fire is governed largely by the chemical processes involved ...
High Density Polyethylene (HDPE) is a highly flammable compound. Finding a method to reduce HDPE\u27...