Mitigation the release of toxic PH3 and the fire hazard of PA6/AHP composite by MOFs

[Display omitted] •MIL-100 (Fe) was synthesized, and blended with AHP, MCA to flame retardant PA6.•The PH3 gas release of PA6/AHP composites were detected in TG-FTIR, the accelerated thermal experiment and processing.•MCA and MIL-100 (Fe) can mitigate PH3 gas release from AHP during processing, and...

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Veröffentlicht in:Journal of hazardous materials 2020-08, Vol.395, p.122604-122604, Article 122604
Hauptverfasser: Li, Yuyang, Li, Xiangmei, Pan, Ye-Tang, Xu, Xingyan, Song, Yunze, Yang, Rongjie
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Sprache:eng
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Zusammenfassung:[Display omitted] •MIL-100 (Fe) was synthesized, and blended with AHP, MCA to flame retardant PA6.•The PH3 gas release of PA6/AHP composites were detected in TG-FTIR, the accelerated thermal experiment and processing.•MCA and MIL-100 (Fe) can mitigate PH3 gas release from AHP during processing, and improve the flame retardancy of PA6. Aluminum hypophosphite (AHP) is a high-efficiency phosphorus-based flame retardant with high P content, which is widely used in Polyamide 6 (PA6). However, AHP releases phosphine gas (PH3) at high temperatures, which is highly toxic to human’s health and environment. Metal-organic frameworks (MOFs) have porous structure exhibiting high performance in gas adsorption. Therefore, mesoporous iron (III) carboxylate [MIL-100 (Fe)] was synthesized in this work and employed to study the adsorption capacity of toxic PH3 in PA6/AHP composite during processing. AHP was combined with melamine cyanurate (MCA) and MIL-100 (Fe) followed by blending with PA6 to prepare PA6 composites (PA6/MA and PA6/MAF). PA6/MAF with the weight ratio of 5:5 performed well in inhibiting the release of PH3 during the processing of composite as well as the accelerated thermal experiment devised by our group. Besides, PA6/MAF (5:5) showed relatively low fire hazard reflected by the reduction of the peak of heat release rate of PA6 composite from 962 to 260 kW/m2 compared with that of pure PA6 in the cone calorimeter test, and MIL-100 (Fe) along with MCA also presented synergistic effect in suppressing the emission of carbon monoxide. The subtle selection of MOFs herein has the potential to be used as a promising synergist for hazardous gases released from polymer composites to improve the occupational and fire safety in the society.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2020.122604