4.7 Article

A facile strategy to fabricate phosphorus-free and halogen-free flame retardant polyacrylonitrile fiber based on amidoximation and Fe (III) ion chelation

Journal

POLYMER DEGRADATION AND STABILITY
Volume 203, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.polymdegradstab.2022.110062

Keywords

Polyacrylonitrile fiber; Amidoxime; Flame retardant; Phosphorus free; Chelation effect

Funding

  1. National Natural Science Foundation of China [21975182]
  2. Beijing Tianjin Hebei collaborative innovation community construction project [20541401D]

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In this work, a phosphorus-free and halogen-free strategy was proposed to prepare flame retardant poly-acrylonitrile fibers (FR-PAN). The FR-PAN showed reduced heat release rate and improved oxygen index, indicating its good flame retardant properties. This work has important implications for the development of functional fibers.
In this work, we proposed a novel phosphorus-free and halogen-free strategy to prepare flame retardant poly-acrylonitrile fibers (FR-PAN). First, PAN fibers were modified with hydroxylamine hydrochloride (HA) to introduce amidoxime groups in PAN fibers (A-PAN), then the A-PAN samples were immersed in ferric chloride solution to chelate Fe3+ to obtain FR-PAN. The micro calorimeter (MCC) test showed that the peak heat release rate (PHRR) and total heat release (THR) of FR-PAN were reduced by 72.9%, and 86.9% respectively. Mean-while, the limiting oxygen index (LOI) value of FR-PAN increased from 17.0% to 36.7%. TG results demonstrated that amidoxime groups promoted the cyclization and dehydrogenation of PAN in advance. Meanwhile, the released nonflammable NH3 effectively diluted the emission of combustible gases, which acted as a flame retardant role in gas-phase. Fe3+ had synergistic catalytic char formation effect, resulting in a highly dense char layer containing Fe2O3, which isolated oxygen, significantly reduced the emission of toxic gases. This work endowed PAN fibers with good flame retardancy and great potential application in the field of functional fibers.

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