Flame-Retardant Thermoplastic Polyether Ester/Aluminum Butylmethylphosphinate/Phenolphthalein Composites with Enhanced Mechanical Properties and Antidripping

Flame-Retardant Thermoplastic Polyether Ester/Aluminum Butylmethylphosphinate/Phenolphthalein Composites with Enhanced Mechanical Properties and Antidripping

Aluminum butylmethylphosphinate AiBMP as a flame retardant and phenolphthalein as a synergistic agent were applied in a thermoplastic polyester elastomer (TPEE)) in the current study. The thermal properties, flame retardancy, crystallization and mechanical properties of TPEE/AiMBP with or without ph...

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Bibliographic Details
Published in:Polymers Vol. 16; no. 4; p. 552
Main Authors: Yang, Xue, Zhang, Yan, Chen, Jia, Zou, Liyong, Xing, Xuesong, Zhang, Kangran, Liu, Jiyan, Liu, Xueqing
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 01-02-2024
MDPI
Subjects:
Aluminum
Aluminum compounds
Composite materials
Crystallization
Dispersion
Elastomers
Esters
Fireproofing agents
flame retardancy
Flame retardants
Fracture surfaces
Glycol ethers
Heat release rate
High temperature
Hydrocarbons
Mechanical properties
Mechanical tests
metal phosphinate
Phenolphthalein
Scanning electron microscopy
Scanning microscopy
Spectrum analysis
Tensile strength
Thermal properties
Thermodynamic properties
Thermogravimetric analysis
Thermogravimetry
thermoplastic polyether-ester
Thermoplastics
China
United States > US
thermoplastic polyether-ester
metal phosphinate
flame retardancy
phenolphthalein
mechanical properties
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Summary:Aluminum butylmethylphosphinate AiBMP as a flame retardant and phenolphthalein as a synergistic agent were applied in a thermoplastic polyester elastomer (TPEE)) in the current study. The thermal properties, flame retardancy, crystallization and mechanical properties of TPEE/AiMBP with or without phenolphthalein were investigated using various characterizations, including the limiting oxygen index (LOI), vertical burning test (UL 94), thermogravimetric analysis TG, differential scanning calorimetry, microcombustion calorimeter (MCC), scanning electron microscopy (SEM), and mechanical tests. The results revealed that AiBMP alone is an efficient flame retardant of TPEE. Adding 15 wt.% AiBMP increases the LOI value of TPEE from 20% to 36%. The formula TPEE-15 AiBMP passed the UL 94 V-0 rating with no dripping occurring. The MCC test shows that AiBMP depresses the heat release of TPEE. In comparison with pure TPEE, the heat release rate at peak temperature and the heat release capacity of TPEE-15AiBMP are reduced by 46.1% and 55.5%, respectively. With the phenolphthalein added, the formula TPEE/13AiBMP/2Ph shows a higher char yield at high temperatures (>600 °C), and the char layer is stronger and more condensed than TPEE-15AiBMP.The tensile strength and elongation at break values of TPEE-13AiBMP-2Ph are increased by 29.63% and 4.8% in comparison with TPEE-15AiBMP. The SEM morphology of the fracture surface of the sample shows that phenolphthalein acts as a plasticizer to improve the dispersion of AiBMP within the matrix. The good char charming ability of phenolphthalein itself and improved dispersion of AiBMP make the TPEE composites achieve both satisfying flame retardancy and high mechanical properties.
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ISSN:2073-4360
2073-4360
DOI:10.3390/polym16040552