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Materials | Special Issue : Advanced Flame Retardant Materials
A novel halogen-free flame-retardant formulation was prepared and coated onto cotton fabrics. The structure of phosphorus compounds in the system was characterized by attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR) and nuclear magnetic resonance spectroscopy (1 H-NMR).Results from the ATR-FTIR spectroscopy, scanning electron microscopy (SEM), and energy
A study of the flame‐retardant properties of polypropylene
The flame‐retardant properties, i.e. oxygen index (OI), burning velocity and smoke density, of the composites were measured. The results showed that OI increased with an increase of the filler content and decreased with an increase of the filler particle diameter.
Flame Retardant Polymer Nanocomposites and Interfaces
The flame retardant efficiency of polymer nanocomposites is highly dependent on the dispersion of the nano-fillers within the polymer matrix. In order to control the filler dispersion, it is very essential to explore the interfacial compatibility between fillers and matrices, which provides a guide for the flame retardant nanocomposites compounding.
RTP at a Glance
used to describe plastics incorporating flame retardant systems, all of which have similar intent: fire retardant, ignition resistant, and self-extinguishing materials. Even with flame retardant treatment, no plastic can be rendered entirely fire proof. Flame retardant systems are meant to moderate, but not eliminate, eventual combustion.
Flame retardant, mechanical and thermal insulating
A novel phosphorus-nitrogen flame retardant, nano zirconium amino-tris-(methylenephosphonate) (Zr-AMP), successfully synthesized by allowing amino trimethylene phosphonic acid (AMP) to react with ZrOCl·8H 2 O, was incorporated into rigid polyurethane (RPU) foam with expandable graphite (EG) to prepare flame retarded composites.A synergistic effect between nano Zr-AMP and EG on flame retarded
Flame retardant high density polyethylene optimized by
The PE, flame retardant additives and clay were processed in a twin screw counter-rotating extruder, Leistritz Micro 27 with L/D = 32 and diameter of 27 mm; alternatively, a single screw extruder with L/D = 24 and diameter of 25.4 mm was coupled to a static mixer die which promotes extensional flow assisted by ultrasonic elements to generate
fire retardant (fr) systems and techniques Smoke and Flame
flame resistance in low smoke formulas is very high loadings of ATH and/or Mg(OH)2. These materials release water at fire temperatures: This is intended to not only put the fire out but also dampen down any evolving smoke. It requires high loadings (50-60% of total formula) of these water-releasing fillers to reach V-0 resistance in a
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Efficient Flame Retardant Thin Films Synthesized
An innovative approach to produce high-performance and halogen-free flame-retardant thin films at atmospheric pressure is reported. PDMS-based coatings with embedded dopant-rich polyphosphates are elaborated thanks to a straightforward approach, using an atmospheric pressure dielectric barrier discharge (AP-DBD). Deposition conditions have been tailored to elaborate various thin films that can