Hyperbranched Polymers as Novel Flame Retardant Material

Jyotishmoy Borah; Guang Yi Lin; Chuan Sheng Wang

doi:10.4028/www.scientific.net/AMR.87-88.271

Paper Titles

A Study on the Optimization and Application of All Radial Truck Tire Building Process Technology
p.244

Analysis of Melting Process and Numerical Simulation of Pure UHMW-PE Pipe Based on Molding in Barrel Technology
p.250

Experimental Research on Carbon Black Flowing in Pneumatic Conveying System
p.256

Development of Durable Softening and Water-Repellent PP/HDPE Heat-Bondable Composite Fiber
p.265

Hyperbranched Polymers as Novel Flame Retardant Material
p.271

Effects of Different Structure Rotors on Mixing Process and Quality of Short Fiber-Rubber Composite Material
p.277

Preparation and Thermal Properties of Phosphorus-Containing Copolyester Nanocomposites with Carbon Nanotube
p.282

Research of Temperature Control System Based on Fuzzy Control Algorithm for Mixer
p.288

Research on the Curing Behaviour of an Epoxy/nmSiO₂ Nanocomposite System
p.293

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 87-88Hyperbranched Polymers as Novel Flame Retardant...

Hyperbranched Polymers as Novel Flame Retardant Material

Abstract:

A series of aromatic hyperbranched polyethers have been synthesized from cyanuric chloride and diols by using nucleophilic displacement polymerization technique. The synthesized sulfur containing polyether was blended with commercially available low density polyethylene (LDPE) and plasticized poly(vinyl chloride) separately to improve the flame retardant property of those linear polymers. The flame retardancy of blends at different dose levels of the hyperbranched polyether with those linear polymers was investigated by measurement of limiting oxygen index (LOI) value and thermogravimetric analysis. The LOI values and TG analysis of these blends indicated that the hyperbranched polyether act as flame retardant additive.