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Development of an innovative, cost-effective technology to produce halogen-free, high-performance flame retarded poliolefins (flaretpol)

Ziel

Plastic applications such as indoor elements of vehicles or aircrafts require flame retardancy to improve survivability. Emission of smoke or toxic gases should be also suppressed, making undesirable the use of some of the most efficient flame retardants, brominated compounds, which are even the object of European bans. Flame-retarded polypropylenes are highly sought due to the outstanding characteristics of PP, the fastest growing commodity plastic. The most promising flame retardant for polypropylene is magnesium hydroxide (MH), stable at PP processing temperatures and leading to harmless combustion products. Unfortunately, MH must be used in large amounts leading to a loss of processability and mechanical properties. The aim of Flaretpol is to achieve MH /PP composites with flame retarding behaviour, but much improved regarding processability and mechanical properties. Target properties for MH/PP will be V0 (UL94), stress at failure>16 MPa, strain>5%, E=1000 MPa, Impact>22.5 J/m, and success will be demonstrated by production of cables, profiles and car details. Sophisticated MH surface engineering techniques will be used, including direct coupling to the MH of tailor-made reactive peroxide oligomers (route 1), creation of a nano-sized tailored pol ymer layer around the MH (route 2) and combination of MH treated by routes 1 and 2 with treated nano-clay (route 3). The most relevant milestones include success in the filler treatment at laboratory level, successful industrial upscaling, production of c ables, profiles and car details fulfilling specifications and demonstration of economic and environmental feasibility of the products and processes developed. The proponent consortium comprises 7 industries, 4 research organisations and 1 University from 7 European countries which cover all complementary aspects of production of MH/PP composites. Potential direct benefits include a revenue of 11 million Euros/year for the industrial partners.

Aufforderung zur Vorschlagseinreichung

FP6-2003-NMP-TI-3-MAIN
Andere Projekte für diesen Aufruf anzeigen

Koordinator

UNIVERSITA DEGLI STUDI DI MILANO
Adresse
Via Festa Del Perdono 7
Milano
Italien

Beteiligte (13)

DEAD SEA BROMINE COMPOUNDS LTD
Israel
Adresse
12 Kreuzer Street
Beersheva
PERPLASTIC, S.L.
Spanien
Adresse
Naval, 11-Polig. Ind. De Cantabria
Logrono
LAVIOSA CHIMICA MINERARIA S.P.A
Italien
Adresse
Via Leonardo Da Vinci, 21
Livorno
COFICAB PORTUGAL - COMPANHIA DE FIOS E CABOS, LDA.
Portugal
Adresse
Largo 1º De Dezembro
Guarda
FIRAT PLASTIK KAUCUK SANAYI VE TICARET ANONIM SIRKETI
Türkei
Adresse
Türkoba Köyü P.k. 12
Büyükçekmece Istanbul
FUNDACION GAIKER
Spanien
Adresse
Parque Tecnologico, Edificio 202
Zamudio
SMITHERS RAPRA LIMITED
United Kingdom
Adresse
Shawbury
Shrewsbury, Shropshire
L´UREDERRA, FUNDACION PARA EL DESARROLLO TECNOLOGICO Y SOCIAL
Spanien
Adresse
San Anton, 3
Zudaire (Navarre)
ARGUS CHEMICALS SRL
Italien
Adresse
Via Del Molin Nuovo 10
Vernio (Po)
POLYMER LABORATORIES LTD
United Kingdom
Adresse
Essex Road
Church Stretton, Shropshire
LVIV POLYTECHNIC NATIONAL UNIVERSITY
Ukraine
Adresse
Bandera Str. 12
Lviv
KTSN KUNSTSTOFFTECHNIK SACHSEN GMBH & CO. KG
Deutschland
Adresse
Fabrikstr. 2
Pirna
LEIBNIZ-INSTITUT FÜR POLYMERFORSCHUNG DRESDEN E. V.
Deutschland
Adresse
Hohe Strasse 6
Dresden