Combination of Phosphorous Flame Retardants and Aluminum Trihydrate in Multicomponent EPDM Composites

Zirnstein, Benjamin; Schulze, Dietmar; Schartel, Bernhard

doi:10.1002/pen.25280

Cited by 8 publications

(4 citation statements)

References 54 publications

(77 reference statements)

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“…The generated gases were further analyzed by the NETZSCH-QMS403D gas chromatography-mass spectrometry, which was linked to the FTIR spectrometer. With an ionization voltage of 70 eV, the scanning was conducted at a speed of 0.2 s. 27,28 2.2 | The theoretical part…”

Section: Tg-mass Spectrometrymentioning

confidence: 99%

Study on the pyrolysis characteristics, kinetics, thermodynamics, volatile products, and chemical reactions of micron polyamide waste, a typical marine plastic microfragment

Liu,

Zheng,

et al. 2024

Polymer Engineering & Sci

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The pollution of waste plastic microfragments to the marine ecosystems is an increasingly serious problem. Pyrolysis is widely recognized as a viable technique for the treatment of such plastic waste materials. The pyrolysis behaviors, characteristic parameters, kinetics, thermodynamics, volatiles, and possible chemical reactions during the pyrolysis of micron polyamide waste (the main component of fishing gear abandoned in the marine environment) are studied in inert atmosphere in the present work. The results show that the pyrolysis of micron polyamide may be regarded as a one‐step reaction. The peak and average reaction rates decrease significantly when the heating rate increases. The calculated kinetic parameters can effectively predict the pyrolysis behaviors of micron polyamide. The pyrolysis of micron polyamide is characterized as an endothermic reaction that occurs non‐spontaneously. Furthermore, the information of volatiles was obtained. The volatiles with higher content were –CH2 groups, CO2, and lactam, and the volatiles with smaller content were: –NH groups, NH3, HCN, H2O, CO, and amide derivatives. In addition, an analysis was conducted to explore the potential chemical reactions.Highlights The pyrolysis of micron polyamide can be considered as a one‐step reaction. The obtained kinetic parameters can well predict the pyrolysis process. Pyrolysis of micron polyamide is a non‐spontaneous and endothermic reaction. Specific volatile products are determined by Fourier transform infrared and mass spectrometry. The chemical reactions that may occur during the pyrolysis have been inferred.

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Section: Tg-mass Spectrometrymentioning

confidence: 99%

Study on the pyrolysis characteristics, kinetics, thermodynamics, volatile products, and chemical reactions of micron polyamide waste, a typical marine plastic microfragment

Liu,

Zheng,

et al. 2024

Polymer Engineering & Sci

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“…One method incorporates flame retardants into the EPDM, improving its flame resistance, which is especially crucial for applications with fire risks. Another approach introduced 3‐D cross‐linked structures to enhance thermal stability, benefiting applications involving high temperatures or mechanical stress 10–12 …”

Section: Introductionmentioning

confidence: 99%

“…Another approach introduced 3-D cross-linked structures to enhance thermal stability, benefiting applications involving high temperatures or mechanical stress. [10][11][12] Halogenated flame retardants (HFRs) are being replaced by environmentally friendly alternatives like halogen-free flame retardants (HFFRs), specifically metal hydroxides like aluminum hydroxide (ATH) and magnesium hydroxide (MDH). [13][14][15] While HFFRs have advantages including higher decomposition temperatures and lower smoke production, they require high loading levels (>50%), affecting composite performance.…”

mentioning

confidence: 99%

Preparation and characterization of ethylene‐propylene‐diene monomer rubber/metal hydroxide composites by electron beam irradiation

Kim,

Lee,

Kim

et al. 2024

Polymer Engineering & Sci

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Ethylene‐propylene‐diene monomer (EPDM) rubber has widespread uses in various applications due to its ozone and oxidation stability, weatherability, electrical insulation, and elasticity. However, its further use is limited by low flame retardancy and low thermal stability. This study incorporated metal hydroxide flame retardant to enhance flame retardancy and electron beam cross‐linking to simultaneously enhance mechanical properties, thermal stability, and flame retardancy. The utilization of electron beam irradiation resulted in an increase in gel content and a decrease in swelling ratio with increasing absorbed doses, indicating the successful formation of cross‐linked network structures. The hot‐set elongation was significantly reduced to 0.6%–0.8%, while the decomposition temperature increased with increasing absorbed doses, indicating improved thermal stability. The results from limiting oxygen index measurements and burning tests demonstrate that the flame retardancy of EPDM was improved by the combined effect of metal hydroxide flame retardant and electron beam cross‐linking.Highlights EPDM/metal hydroxide composites were prepared via electron beam irradiation. Metal hydroxide flame retardants were incorporated to enhance flame retardancy. EBI simultaneously enhanced mechanical property and thermal stability.

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“…14 It was reported in the literature that various types of flame retardant materials were applied to different kinds of polymers, such as poly (ethylene-co-butyl acrylate), glass fibre reinforced polyaminde 6,6, poly (lactic acid), polystyrene, recycled glass fiber reinforced flame retardant nylon 46 (RGFFRPA46), ethylene-propylene-diene (EPDM) rubber, polypropylene (PP), glass fibre-reinforced polyester (GFRP), recycled glass fiber-reinforced flame retardant poly (butylene terephthalate) (RGFFRPBT), polycarbonate (PC), poly (ethylene terephthalate) (PET), and poly (butylene terephthalate) (PBT) and polyaminde 6,6, to improve their GWFI and glow wire ignition temperature (GWIT) values. [16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31] The flammability properties, including GWFI and GWIT, of these polymer composites are summarized in Table S1 in the supplementary data.…”

Section: Introductionmentioning

confidence: 99%

Reducing fire hazards and enhancing the thermal stability, acoustical, and UV protection of polyvinyl alcohol using bio-based flame retardant

Abdelkhalik,

Makhlouf,

El-Basheer

2023

Journal of Thermoplastic Composite Materials

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Polyvinyl alcohol (PVA) is a highly flammable material, and enhancing its flame retardancy to pass the glow wire test is a great challenge. In this work, the melamine salt of tannic phosphate (MTP) was synthesized, characterized, and combined with PVA at 8, 10, 13, and 15 wt%. The thermogravimetric analysis (TGA) results indicated that MTP enhanced the char formation of PVA at 750°C. Flammability tests showed that low concentrations of MTP can enhance the flame retardancy of PVA. The limiting oxygen index (LOI) of PVA increased from 18.8% to 39.9% in the PVA/15%MTP composite. The vertical flame spread test (UL94V) showed that PVA/13%MTP, and PVA/15%MTP composites achieved V0 rating. Glow wire test data indicated that PVA/10%MTP, PVA/13%MTP, and PVA/15%MTP composites had a glow wire flammability index (GWFI) of 960°C/2 mm. Moreover, all the composites passed the needle flame test when the flame application time was 120 s. PVA/15%MTP composite showed very good UV protection and an increase in sound absorption coefficient magnitude compared with pure PVA. The new results can increase the application of PVA in different industries.

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Combination of Phosphorous Flame Retardants and Aluminum Trihydrate in Multicomponent EPDM Composites

Cited by 8 publications

References 54 publications

Study on the pyrolysis characteristics, kinetics, thermodynamics, volatile products, and chemical reactions of micron polyamide waste, a typical marine plastic microfragment

Study on the pyrolysis characteristics, kinetics, thermodynamics, volatile products, and chemical reactions of micron polyamide waste, a typical marine plastic microfragment

Preparation and characterization of ethylene‐propylene‐diene monomer rubber/metal hydroxide composites by electron beam irradiation

Reducing fire hazards and enhancing the thermal stability, acoustical, and UV protection of polyvinyl alcohol using bio-based flame retardant

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