Thermal Decomposition and Combustion Behavior of Plastics with Flame Retardant

Wood has been treated with amino resins and amino resins modified with phosphoric acid to impart flame retardancy. The thermal degradation of samples has been studied by thermogravimetry (TG) in air. From the resulting data, kinetic parameters for different stages of thermal degradation are obtained following the method of Broido. For the decomposition of wood and flame retardant wood, the activation energy is found to decrease from 122 to 72 kJmol-1.

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Synthesis and thermal decomposition of a novel hyperbranched polyphosphate ester used for flame retardant systems

Polymer Degradation and Stability ◽

10.1016/j.polymdegradstab.2005.09.001 ◽

2006 ◽

Vol 91 (6) ◽

pp. 1289-1294 ◽

Cited By ~ 52

Author(s):

Qingfeng Wang ◽

Wenfang Shi

Keyword(s):

Thermal Decomposition ◽

Flame Retardant

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Effects of Complex Flame Retardant on the Thermal Decomposition of Natural Fiber

BioResources ◽

10.15376/biores.9.3.4924-4933 ◽

2014 ◽

Vol 9 (3) ◽

Cited By ~ 5

Author(s):

Na Xiao ◽

Xue Zheng ◽

Shuping Song ◽

Junwen Pu

Keyword(s):

Thermal Decomposition ◽

Flame Retardant ◽

Natural Fiber

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Self-Extinguishing and Non-Drip Flame Retardant Polyamide 6 Nanocomposite: Mechanical, Thermal, and Combustion Behavior

Flame Retardancy and Thermal Stability of Materials ◽

10.1515/flret-2018-0001 ◽

2018 ◽

Vol 1 (1) ◽

pp. 1-13 ◽

Cited By ~ 3

Author(s):

Hao Wu ◽

Rogelio Ortiz ◽

Renan De Azevedo Correa ◽

Mourad Krifa ◽

Joseph H. Koo

Keyword(s):

Maleic Anhydride ◽

Flame Retardant ◽

Polymer Matrix ◽

Flame Retardants ◽

Polyamide 6 ◽

Twin Screw Extrusion ◽

Elongation At Break ◽

Combustion Behavior ◽

Screw Extrusion ◽

Twin Screw

AbstractIncorporation of flame-retardant (FR) additives and nanoclay fillers into thermoplastic polymers effectively suppresses materials flammability and melt dripping behavior. However, it largely affects other properties, such as toughness and ductility. In order to recover the lost toughness and ductility of flame retardant polyamide 6, various loadings of maleic anhydride modified SEBS elastomer were added and processed by twin screw extrusion. TEM images showed exfoliated nanoclay platelets and reveals that the clay platelets well dispersed in the polymer matrix. By balancing the ratio of flame retardants, nanoclay and elastomers, formulation with elongation at break as high as 76% was achieved. Combining conventional intumescent FR and nanoclay, UL-94 V-0 rating and the LOI value as high as 32.2 were achieved. In conclusion, effective self-extinguishing and non-drip polyamide 6 nanocomposite formulations with significant improvement in toughness and ductility were achieved.

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Mechanical and flame‐retardant properties and thermal decomposition of vinyl ester resin modified by different phenyl silsesquioxanes

Polymers for Advanced Technologies ◽

10.1002/pat.4910 ◽

2020 ◽

Vol 31 (8) ◽

pp. 1836-1846 ◽

Cited By ~ 1

Author(s):

Weiwei Zhang ◽

Wenchao Zhang ◽

Zhaolu Qin ◽

Xin Zhang ◽

Fan Yang ◽

...

Keyword(s):

Thermal Decomposition ◽

Flame Retardant ◽

Vinyl Ester ◽

Vinyl Ester Resin ◽

Flame Retardant Properties

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Thermal Decomposition Kinetics of Flame Retardant Polybutylene Terephthalate Matrix Composites

Materials Science Forum ◽

10.4028/www.scientific.net/msf.956.181 ◽

2019 ◽

Vol 956 ◽

pp. 181-191

Author(s):

Jian Lin Xu ◽

Bing Xue Ma ◽

Cheng Hu Kang ◽

Cheng Cheng Xu ◽

Zhou Chen ◽

...

Keyword(s):

Activation Energy ◽

Thermal Decomposition ◽

Flame Retardant ◽

Mass Loss Rate ◽

Decomposition Reaction ◽

Decomposition Kinetics ◽

Thermal Decomposition Kinetics ◽

Heating Rates ◽

Polybutylene Terephthalate ◽

Kinetics Of

The thermal decomposition kinetics of polybutylene terephthalate (PBT) and flame-retardant PBT (FR-PBT) were investigated by thermogravimetric analysis at various heating rates. The kinetic parameters were determined by using Kissinger, Flynn-Wall-Ozawa and Friedman methods. The y (α) and z (α) master plots were used to identify the thermal decomposition model. The results show that the rate of residual carbon of FR-PBT is higher than that of PBT and the maximum mass loss rate of FR-PBT is lower than that of PBT. The values of activation energy of PBT (208.71 kJ/mol) and FR-PBT (244.78 kJ/mol) calculated by Kissinger method were higher than those of PBT (PBT: 195.54 kJ/mol) and FR-PBT (FR-PBT: 196.00 kJ/mol) calculated by Flynn-Wall-Ozawa method and those of PBT and FR-PBT (PBT: 199.10 kJ/mol, FR-PBT: 206.03 kJ/mol) calculated by Friedman methods. There is a common thing that the values of activation energy of FR-PBT are higher than that of PBT in different methods. The thermal decomposition reaction models of the PBT and FR-PBT can be described by Avarami-Erofeyev model (A1).

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