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Polymer Degradation and Stability, ISSN 0141-3910, 09/2013, Volume 98, Issue 9, pp. 1638 - 1647
The morphology of carbonized materials resulting from an intumescence phenomenon was studied. The investigated material is a polyurethane matrix filled either... 
Flame retardant | Nanofiller | Tomography | Intumescence | Synergy | Polyurethane | POLYMERS | POLYMER SCIENCE | BEHAVIOR | MECHANISMS | AMMONIUM POLYPHOSPHATE | EXPANDABLE GRAPHITE | FLAME-RETARDANT | FIRE RETARDANCY | ASSOCIATION | CT imaging | Polyurethanes | Magnesium compounds | Investigations | Electric properties | Degradation | Polyurethane resins | Morphology | Fillers | Thermal conductivity | Combustion | Polyphosphates
Journal Article
Progress in polymer science, ISSN 0079-6700, 2013, Volume 38, Issue 9, pp. 1357 - 1387
Journal Article
Journal Article
Polymer-plastics technology and engineering, ISSN 1525-6111, 2017, Volume 57, Issue 4, pp. 346 - 369
Journal Article
Polymer degradation and stability, ISSN 0141-3910, 2012, Volume 97, Issue 8, pp. 1285 - 1296
Although there is considerable research effort in the development of halogen-free flame-retardant polylactide (PLA), a bio-based aliphatic polyester, the... 
Nanofiller geometry | Flame retardancy | Nanocomposite | Polylactide | POLYPHOSPHATE | POLYMER SCIENCE | FLAMMABILITY | MELAMINE CYANURATE | LAYERED SILICATE | NANOTUBES | MECHANISMS | COMBINATION | Nanoparticles | Nanocomposites | Montmorillonite | Aluminum | Flame retardants | Nanomaterials | Nanostructure | Combustion
Journal Article
2017, ISBN 9780081001639
.... Intumescent flame-retardant PLA systems and new charring agents are addressed. The use of nanomaterials, including carbon nanotubes, montmorillonite, polyhedral oligomeric silsesquioxane, layered double hydroxides, etc... 
Thermal properties | Nanofillers | Polylactic acid (PLA) | Synergistic association | Fire retardant
Book Chapter
08/2014, ISBN 9780444538086
The realization of special formulations of biopolymers characterized by flame retardancy significantly enlarges their potential for utilization in engineering... 
Flame retardancy | Polylactide | Nanofillers | Bionanocomposites | Fibers
Book Chapter
2014, ISBN 9780444538086
The realization of special formulations of biopolymers characterized by flame retardancy significantly enlarges their potential for utilization in engineering... 
Flame retardancy | Polylactide | Nanofillers | Bionanocomposites | Fibers
Book Chapter
Journal of Macromolecular Science, Part A, ISSN 1060-1325, 01/2013, Volume 50, Issue 12, pp. 1241 - 1249
... hydrate (ATH), magnesium hydroxide (MH), organic brominated compounds or intumescent systems to prevent the burning of polymers like polyethylene (PE), polypropylene... 
nanofillers | fire characteristics | flammability | polymer nanocomposites | Dispersions | Thermoplastic resins | Heat release rate | Nanocomposites | Fillers | Flammability | Nanomaterials | Nanostructure
Journal Article
Journal of Thermal Analysis and Calorimetry, ISSN 1388-6150, 06/2017, Volume 128, Issue 3, pp. 1443 - 1451
Nanocomposite is a promising method to reduce fire hazards of polymers. Specifically due to increased interfacial area between polymer and nanofillers, polymer... 
Cone calorimeter | Flammability | Ignitability | Polymer nanocomposites | Crosslinked polymer | Silica nanofillers | FLAMMABILITY PROPERTIES | CHEMISTRY, ANALYTICAL | MECHANISM | CHEMISTRY, PHYSICAL | LAYERED-SILICATE NANOCOMPOSITES | COMPOSITES | HEAT RELEASE | THERMODYNAMICS | POLYPROPYLENE | FIRE | Crosslinked polymers | Fireproofing agents | Analysis | Combustion | Polymers | Methyl methacrylate | Silica
Journal Article
Polymer-Plastics Technology and Engineering, ISSN 0360-2559, 11/2016, Volume 55, Issue 16, pp. 1765 - 1784
Journal Article