ČUDEŽNI BOMBAŽ / COTTON MIRACLE

Raziskovalci Naravoslovnotehniške fakultete Univerze v Ljubljani in Kemijskega inštituta so razvili nov postopek izdelave večfunkcionalnega visoko pralno obstojnega anorgansko-organskega hibridnega filma sol-gel za dosego hkratne super-vodo in olje odbojnosti, samočistilnosti, protimikrobne aktivnosti in povečane termične stabilnosti bombažnih vlaken. Oblikovani film sol-gel je izrednega pomena za izdelavo visokotehnološko razvitih tehničnih tekstilnih izdelkov z zaščitnimi lastnostmi in visoko dodano vrednostjo. (EU patent EP 2990527 (B1).

Researchers from the Faculty of Natural Sciences and Engineering of the University of Ljubljana and the National Institute of Chemistry have developed a new fabrication process of a long-lasting multifunctional inorganic-organic hybrid sol-gel film, which enables the achievement of simultaneous superhydrophobic, oleophobic and self-cleaning properties, antimicrobial activity and improved thermal stability of cotton fibres. The developed sol-gel film is of prime importance for the production of high-tech technical textile products with protective properties and high added value. (EU patent EP 2990527 (B1).

FLAREMID6

Raziskovalci Naravoslovnotehniške fakultete Univerze v Ljubljani in Kemijskega inštituta so razvili nov postopek izdelave prvega trajnostnega vlaknotvornega kopolimera poliamida 6 (PA6) z vgrajeno organofosforjevo spojino kot tudi prvih ognjevarnih samougasljivih tekstilnih filamenotov. Pogoji postopka njihove izdelave so prilagojeni industrijski proizvodnji. Nanodispergirana organofosforjeva spojina v matrici PA6 zagotavlja maksimalno ognjevarnost že pri nizkih koncentracijah. (EU patentna prijava EP 3 587 471 A1)

Researchers from the Faculty of Natural Sciences and Engineering of the University of Ljubljana and the National Institute of Chemistry have developed a new process for the production of the first sustainable fibre-forming copolymer of polyamide 6 (PA6) with embedded organophosphorus compound, and the first flame retardant self-extinguishing textile filaments. The parameters of their production process are adjusted to the industrial production. The nanodispersed flame retardant in the PA6 matrix ensures maximum flame retardancy even at low concentrations. (EU patent application EP 3 587 471 A1)

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