This study presents new intumescent formulations based on lignin & phosphinates to improve the flame retardant properties of PA11 while preserving its bio-based characteristics. Lignin has the advantage of being bio-based compound, can be effectively used as carbon source for intumescent with other flame retardant additives. Possibility of melt spinning of blends was realized by melt fluidity test (MFI) and thermal stability studied by TGA. Cone calorimeter is used to study fire retardant (FR) properties in order to develop FR fibres and textile structure.
Study of PA11 with different intumescent formulation based on lignin & phosphinate for bio-based flame retardant textile / Mandlekar, NEERAJ KUMAR; Cayla, A.; Rault, F.; Giraud, S.; Salaün, F.; Malucelli, Giulio; Guan, J.. - ELETTRONICO. - 3827:(2017), pp. 1-2. (Intervento presentato al convegno AUTEX World Textile Conference 2017 tenutosi a Corfu nel 29-31 May 2017).
Study of PA11 with different intumescent formulation based on lignin & phosphinate for bio-based flame retardant textile
MANDLEKAR, NEERAJ KUMAR;MALUCELLI, GIULIO;
2017
Abstract
This study presents new intumescent formulations based on lignin & phosphinates to improve the flame retardant properties of PA11 while preserving its bio-based characteristics. Lignin has the advantage of being bio-based compound, can be effectively used as carbon source for intumescent with other flame retardant additives. Possibility of melt spinning of blends was realized by melt fluidity test (MFI) and thermal stability studied by TGA. Cone calorimeter is used to study fire retardant (FR) properties in order to develop FR fibres and textile structure.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2689154
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