All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition

All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition

In the present manuscript a new concept of completely inorganic intumescent flame retardant nanocoating comprised of sodium montmorillonite nanoplatelets embedded in an ammonium polyphosphate matrix has been investigated using cotton as model substrate. The coating, deposited by multistep adsorption...

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Bibliographic Details
Main Authors: Jenny Alongi, Federico Carosio
Format: Article
Language:English
Published: MDPI AG 2016-12-01
Series:Polymers
Subjects:
cotton
flame retardancy
combustion
intumescence
sodium cloisite
APP
Online Access:http://www.mdpi.com/2073-4360/8/12/430
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spelling doaj-2c270b9ebac343c3bfb5d681c01d8fd82020-11-24T23:28:51ZengMDPI AGPolymers2073-43602016-12-0181243010.3390/polym8120430polym8120430All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton IgnitionJenny Alongi0Federico Carosio1Dipartimento di Chimica, Università degli Studi di Milano, Via Golgi 19, 20133 Milano, ItalyDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Alessandria site, Viale Teresa Michel 5, 15121 Alessandria, ItalyIn the present manuscript a new concept of completely inorganic intumescent flame retardant nanocoating comprised of sodium montmorillonite nanoplatelets embedded in an ammonium polyphosphate matrix has been investigated using cotton as model substrate. The coating, deposited by multistep adsorption from diluted water-based suspensions/solutions, homogenously cover each cotton fibers with average thicknesses below 50 nm and add-on up to 5% in weight. Combustion characterization evidences the interesting properties: indeed, the so-treated fabrics reached self-extinguishing during horizontal flame spread tests. Furthermore, when the coating add-on reaches 5%, no ignition has been observed during cone calorimetry tests under 35 kW/m2 heat flux. Residue analyses pointed out the formation of an expanded all-inorganic coating capable of greatly improving char formation by exerting barrier function towards volatile release and heat transfer.http://www.mdpi.com/2073-4360/8/12/430cottonflame retardancycombustionintumescencesodium cloisiteAPP
collection DOAJ
language English
format Article
sources DOAJ
author Jenny Alongi
Federico Carosio
spellingShingle Jenny Alongi
Federico Carosio
All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
Polymers
cotton
flame retardancy
combustion
intumescence
sodium cloisite
APP
author_facet Jenny Alongi
Federico Carosio
author_sort Jenny Alongi
title All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
title_short All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
title_full All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
title_fullStr All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
title_full_unstemmed All-Inorganic Intumescent Nanocoating Containing Montmorillonite Nanoplatelets in Ammonium Polyphosphate Matrix Capable of Preventing Cotton Ignition
title_sort all-inorganic intumescent nanocoating containing montmorillonite nanoplatelets in ammonium polyphosphate matrix capable of preventing cotton ignition
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2016-12-01
description In the present manuscript a new concept of completely inorganic intumescent flame retardant nanocoating comprised of sodium montmorillonite nanoplatelets embedded in an ammonium polyphosphate matrix has been investigated using cotton as model substrate. The coating, deposited by multistep adsorption from diluted water-based suspensions/solutions, homogenously cover each cotton fibers with average thicknesses below 50 nm and add-on up to 5% in weight. Combustion characterization evidences the interesting properties: indeed, the so-treated fabrics reached self-extinguishing during horizontal flame spread tests. Furthermore, when the coating add-on reaches 5%, no ignition has been observed during cone calorimetry tests under 35 kW/m2 heat flux. Residue analyses pointed out the formation of an expanded all-inorganic coating capable of greatly improving char formation by exerting barrier function towards volatile release and heat transfer.
topic cotton
flame retardancy
combustion
intumescence
sodium cloisite
APP
url http://www.mdpi.com/2073-4360/8/12/430
work_keys_str_mv AT jennyalongi allinorganicintumescentnanocoatingcontainingmontmorillonitenanoplateletsinammoniumpolyphosphatematrixcapableofpreventingcottonignition
AT federicocarosio allinorganicintumescentnanocoatingcontainingmontmorillonitenanoplateletsinammoniumpolyphosphatematrixcapableofpreventingcottonignition
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