Overview
ABSTRACT
Flame retardants are essential additives in the formulation of polymer materials. Since new environmental restrictions came into force, phosphorus-containing flame retardants have taken a large part of the additive market. After a description of how the phosphorus-containing flame retardants work in polymers, various characterization methods for flame retardant properties are presented. The commercial phosphorus-containing flame retardants are then presented, highlighting their chemical structures (organic vs. inorganic, oxidation degree, aromaticity, synergistic effect).
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Read the articleAUTHORS
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Claire NEGRELL: CNRS engineer - Charles Gerhardt Institute (ICGM), CNRS, Montpellier, France
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Raphaël MÉNARD: Doctor - Institut Charles Gerhardt (ICGM) and Centre des matériaux des Mines d'Alès, ARMINES, Montpellier, France
INTRODUCTION
For over 70 years, polymer materials have been gradually replacing traditionally used materials, and are constantly all around us in various forms: commodity products (packaging, textiles), technical polymers (composites, electronic materials) or specialty products (optical fibers). The massive use of polymeric materials in a wide range of applications is due to their diverse properties depending on their chemical structure, their ease of shaping and their relatively low production costs. However, despite their obvious qualities, plastic materials are highly flammable, which can have serious consequences in the event of fire, making every polymer material a combustible in the event of a fire. This potential fire risk is constantly increasing, particularly with the proliferation and miniaturization of electrical equipment. In France, more than 300,000 fires of various kinds were recorded in 2013, of which around 140,000 involved home and vehicle fires, resulting in 362 deaths and more than 1,500 medicalizations . There are also considerable material losses (around 25 billion euros for Europe) due to fires caused by the ignition of polymeric materials. Combating this phenomenon is therefore a public safety issue.
The addition of flame retardants (FRs) to these polymer materials reduces or slows down their flammability. There are many families of flame retardants, and these are adapted to the type of polymer and the type of end-use object. Phosphorus flame retardants (PFRs) are a family of flame retardants that are compatible with a large number of polymers and provide good flame-retardant properties. The aim of this article is therefore to detail the chemical nature of these phosphorus-containing flame retardants and to explain their modes of action.
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KEYWORDS
ignifugation | polymers | oxidation degree | synergy | phosphorus compounds
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Physics and chemistry
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Commercial phosphorus flame retardants for polymers
Bibliography
Websites
European Flame Retardant Association http://www.cefic-efra.com/
Groupement technique français contre l'incendie http://www.gtfi.org/
Events
Annual conference (May): Conference on Recent Advances in Flame Retardancy of Polymeric Materialsin Stamford, Connecticut, USA. http://www.bccresearch.com/conference
FRPM biannual conference – European Meeting on Fire Retardancy and Protection of Materials (every odd-numbered year).
Standards and norms
The French decree of November 21, 2002 (as amended) on the reaction to fire of construction and fitting-out products, now introduces "euroclasses" of reaction to fire. Euroclasses, defined in European standard EN 13501-1, are a system of classification into five categories of requirement: A1, A2, B, C, D, E, F.
This site lists the most important standards for retardants, according to the materials...
Directory
Suppliers – Distributors (non-exhaustive list) of phosphorus flame retardants
Akzo Nobel https://www.akzonobel.com/
Albemarle https://www.albemarle.com/Home-3.html
Adeka Corporation...
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