Surface Addition of Flame Retardants in Acrylic Cast Sheets

Currently, polymers are competing with metals and ceramics to realize various material characteristics, including mechanical and electrical properties. However, most polymers consist of organic matter, making them vulnerable to flames and high-temperature conditions. In addition, the combustion of polymers consisting of different types of organic matter results in various gaseous hazards. Therefore, to minimize the fire damage, there has been a significant demand for developing polymers that are fire resistant or flame retardant. From this viewpoint, it is crucial to design and synthesize thermally stable polymers that are less likely to decompose into combustible gaseous species under high-temperature conditions. Flame retardants can also be introduced to further reinforce the fire performance of polymers. In this review, the combustion process of organic matter, types of flame retardants, and common flammability testing methods are reviewed. Furthermore, the latest research trends in the use of versatile nanofillers to enhance the fire performance of polymeric materials are discussed with an emphasis on their underlying action, advantages, and disadvantages.

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Flame Retardant Polyamide 6 Composites Using NMH or NMH/MCA/APP

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.189-193.1208 ◽

2011 ◽

Vol 189-193 ◽

pp. 1208-1211 ◽

Cited By ~ 1

Author(s):

Yan Shen ◽

Shao Guo Wen ◽

Ji Hu Wang ◽

Hong Bo Liu ◽

Hai Liang Qi ◽

...

Keyword(s):

Flame Retardant ◽

Magnesium Hydroxide ◽

Flame Retardants ◽

Polyamide 6 ◽

X Ray Diffraction ◽

Upward Trend ◽

Orthorhombic Crystal ◽

Orthorhombic Crystal Structure ◽

Orthogonal Experiments ◽

Nitrogen Phosphorus

In this paper, flame retardant Polyamide 6 (PA6) composites were prepared by nano-magnesium hydroxide (NMH) or its composites with melamine cyanurate(MCA) and ammonium polyphosphate(APP). Scanning electron microscopy (SEM) and X-ray diffraction (XRD) were used to analyze the structure of nano-magnesium hydroxide. The properties including tensile properties, molten index (MFI), rockwell hardness and density of flame retardant PA6 were analyzed. Orthogonal experiments were used to study flame retardancy of PA6 with NMH, MCA and APP. The results showed NMH had hexagonal orthorhombic crystal structure with size of 300×200×100nm. Density of polyamide 6 showed an upward trend when the content of NMH was increasing, the mechanical properties and hardness changed little while processing performance serious declined. The flame retardance of nitrogen-phosphorus -inorganic flame retardants was not desirable.

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Organophosphate flame retardants, tetrabromobisphenol A, and their transformation products in sediment of e-waste dismantling areas and the flame-retardant production base

Ecotoxicology and Environmental Safety ◽

10.1016/j.ecoenv.2021.112717 ◽

2021 ◽

Vol 225 ◽

pp. 112717

Author(s):

Peng Chen ◽

Shengtao Ma ◽

Yan Yang ◽

Zenghua Qi ◽

Yujie Wang ◽

...

Keyword(s):

Flame Retardant ◽

Flame Retardants ◽

Transformation Products ◽

Tetrabromobisphenol A

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Flame Retardant Epoxy Resins Containing Microcapsules

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.197-198.1346 ◽

2011 ◽

Vol 197-198 ◽

pp. 1346-1349 ◽

Cited By ~ 4

Author(s):

Fa Chao Wu

Keyword(s):

Flame Retardant ◽

Cone Calorimeter ◽

Epoxy Resins ◽

Flame Retardants ◽

Melamine Resin ◽

Element Analysis ◽

Ul 94

Bis(2,6,7-trioxa-l-phosphabicyclo[2.2.2]octane-4-methanol) melaminium salt (Melabis) and microcapsules of Melabis with melamine resin shell as flame retardants (FR), respectively, were synthesized. Their structures were characterized by NMR, IR, SEM, TG and element analysis. 20% weight of microcapsules was doped into epoxy resins (EP) to get 28.5 % of LOI and UL 94 V-0. The heat and smoke release of EP containing microcapsules was valued by cone calorimeter.

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Properties of Flame-Retardant Cellulose Fibers Prepared from Cellulose[Amim]Cl Dope Solution

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.236-238.1152 ◽

2011 ◽

Vol 236-238 ◽

pp. 1152-1155

Author(s):

Lei Gao ◽

Bo Wen Cheng ◽

Jun Song ◽

Zeng Geng Guo ◽

Fei Lu ◽

...

Keyword(s):

Flame Retardant ◽

Flame Retardants ◽

Simultaneous Thermal Analysis ◽

Cellulose Fiber ◽

Cellulose Fibers ◽

Structure And Properties ◽

Fiber Structure ◽

Fiber Degradation ◽

Dope Solution ◽

Flame Retardant Properties

This paper has studied the structure and flame-retardant properties of flame-retardant cellulose fiber with DDPSN as flame retardant. The flame retardants was uniformly dispersed in the cellulose /[Amim]Cl Solution to obtain the good spinnable dope, then the dope was wet-spun. Effects of the flame-retardant contention the fiber structure and properties were investigated. The surface of the flame-retardant cellulose fiber was observed using field emission scanning electron microscope (FESEM). Besides, through the Simultaneous thermal analysis, it has been shown that, with the increase of fame retardant, the degree of fame resistance was obviously improved. The flame retardant acted greatly in condensed phase during the fiber degradation and remained mainly in residues after degradation, the experiments show that the flame-retardant properties of flame-retardant cellulose fiber with 20wt% DDPSN was obvious.

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Wool: Its Effect On Flame Retardant Properties of Blend Fabrics

Journal of Fire Sciences ◽

10.1177/073490418300100205 ◽

1983 ◽

Vol 1 (2) ◽

pp. 145-154 ◽

Cited By ~ 6

Author(s):

John V. Beninate ◽

Brenda J. Trask ◽

Timothy A. Calamari ◽

George L. Drake

Keyword(s):

Thermal Degradation ◽

Flame Retardant ◽

Flame Retardants ◽

Oxygen Index ◽

Cotton Fabrics ◽

Cotton Wool ◽

Burning Rates ◽

Low Levels ◽

Flame Retardant Properties ◽

Strength Retention

Durable phosphorus-based flame retardants were applied to twill fabrics con taining cotton and wool to study the effect of wool on the flame retardancy and physical properties of the blend fabrics. The presence of wool in untreated blend fabrics caused burning rates to decrease and oxygen index values to increase as wool content increased in the blends. These effects were also observed in cotton/ wool blends treated with low levels of the Thps-urea-TMM flame retardant, but were less pronounced in fabrics treated at high levels. Thermogravimetric analyses were conducted to study the thermal degradation of the treated and untreated fabrics. The presence of wool in treated blend fabrics did not sig nificantly change strength retention, area shrinkage and wrinkle recovery values in comparison to similarly treated 100% cotton fabrics.

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Synergistic flame retardant interplay of phosphorus containing flame retardants with aluminum trihydrate depending on the specific surface area in unsaturated polyester resin

Journal of Applied Polymer Science ◽

10.1002/app.47270 ◽

2018 ◽

Vol 136 (13) ◽

pp. 47270 ◽

Cited By ~ 6

Author(s):

Jens Reuter ◽

Lara Greiner ◽

Frank Schönberger ◽

Manfred Döring

Keyword(s):

Specific Surface ◽

Flame Retardant ◽

Surface Area ◽

Specific Surface Area ◽

Flame Retardants ◽

Polyester Resin ◽

Unsaturated Polyester ◽

Phosphorus Containing ◽

Aluminum Trihydrate ◽

Synergistic Flame Retardant

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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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Effects of heterionic montmorillonites on flame resistances of polystyrene nanocomposites and the flame retardant mechanism

Journal of Composite Materials ◽

10.1177/0021998317724861 ◽

2017 ◽

Vol 52 (10) ◽

pp. 1295-1303 ◽

Cited By ~ 9

Author(s):

Yijiao Xue ◽

Mingxia Shen ◽

Fengling Lu ◽

Yongqin Han ◽

Shaohua Zeng ◽

...

Keyword(s):

Flame Retardant ◽

Flame Retardants ◽

Reducing Power ◽

Infrared Analysis ◽

X Ray Diffraction ◽

Flame Resistance ◽

Cone Calorimeter Test ◽

Intumescent Flame Retardants ◽

Thermal Stability Of ◽

Better Than

To improve the flame resistance of polystyrene, three kinds of organophilic heterionic montmorillonites (Na-montmorillonite, Ca-montmorillonite, and Fe-montmorillonite) reinforced polystyrene nanocomposites were prepared by melt dispersion method. The structure and composition of the organo montmorillonites were characterized by using X-ray diffraction and Fourier-transform infrared analysis. The adhesion between organo montmorillonites and polystyrene was investigated by scanning electron microscopy. The flame resistance and thermal stability of the polystyrene/organo montmorillonites were evaluated by cone calorimeter test and thermogravimetric analysis. The interlayer space of organo montmorillonites increased with the increase of the oxidation state of the cations. With the addition of organo montmorillonites, the peak values of all the flame resistance indexes of the polystyrene/organo montmorillonites nanocomposites decreased, among which the PHRR values have decreased the most, compared with those of polystyrene. Their corresponding test times have all been delayed following almost precisely the same trend. Therefore, their flame retardant ability come from their lamellated structures, their charring forming abilities, and the reducing power of Fe3+ in polystyrene/Fe-montmorillonite. Organo montmorillonites mainly act as a kind of intumescent flame retardants. The flame resistance of polystyrene/Na-montmorillonite nanocomposite was the best, and the polystyrene/Ca-montmorillonite came second, which is slightly better than that of polystyrene/Fe-montmorillonite.

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