Improving the fire retardancy of extruded/coextruded wood-plastic composites
Nikolaeva, Marina (2015-06-12)
Väitöskirja
Nikolaeva, Marina
12.06.2015
Lappeenranta University of Technology
Acta Universitatis Lappeenrantaensis
Julkaisun pysyvä osoite on
https://urn.fi/URN:ISBN:978-952-265-793-0
https://urn.fi/URN:ISBN:978-952-265-793-0
Tiivistelmä
The main objective of this thesis is to study the impact of different mineral fillers and fire
retardants on the reaction-to-fire properties of extruded/coextruded wood-plastic composites
(WPCs). The impact of additives on the flammability properties of WPCs is studied by cone
calorimetry. The studied properties are ignition time, peak heat release rate, total heat release,
total smoke production, and mass loss rate. The effects of mineral fillers and fire retardants were
found to vary with the type of additive, the type of additive combinations, the amount of
additives, as well as the production method of the WPCs. The study shows that talc can be used
to improve the properties of extruded WPCs. Especially ignition time, peak heat release rate and
mass loss rate were found to be improved significantly by talc. The most significant improvement
in the fire retardancy of coextruded WPCs was achieved in combinations of natural graphite and
melamine. Ignition time, peak heat release rate and total smoke production were improved
essentially. High increase in smoke production was found in samples where the amount of
ammonium polyphosphate was 10% or higher. Coextrusion as a structural modification was
found as a promising way to improve the flammability properties of composite materials in a
cost-effective way.
retardants on the reaction-to-fire properties of extruded/coextruded wood-plastic composites
(WPCs). The impact of additives on the flammability properties of WPCs is studied by cone
calorimetry. The studied properties are ignition time, peak heat release rate, total heat release,
total smoke production, and mass loss rate. The effects of mineral fillers and fire retardants were
found to vary with the type of additive, the type of additive combinations, the amount of
additives, as well as the production method of the WPCs. The study shows that talc can be used
to improve the properties of extruded WPCs. Especially ignition time, peak heat release rate and
mass loss rate were found to be improved significantly by talc. The most significant improvement
in the fire retardancy of coextruded WPCs was achieved in combinations of natural graphite and
melamine. Ignition time, peak heat release rate and total smoke production were improved
essentially. High increase in smoke production was found in samples where the amount of
ammonium polyphosphate was 10% or higher. Coextrusion as a structural modification was
found as a promising way to improve the flammability properties of composite materials in a
cost-effective way.
Kokoelmat
- Väitöskirjat [1093]