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Molecular Dynamics Simulations on the Thermal Decomposition of Meta-Aramid Fibers
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The thermal decomposition mechanism of a meta-aramid fiber was simulated at the atomic level using the ReaxFF reactive force field. The simulation results indicated that the main initial decomposition positions of the meta-aramid fiber elements were Caromatic ring–N and C=O, which could be used as targets for the modification of meta-aramid fibers. The meta-aramid fiber elements first decomposed into C6–C13 and then into smaller segments and micromolecular gases. The temperature was shown to be the key factor affecting the thermal decomposition of the meta-aramid fibers. More complex compositions and stable gases were produced at high temperatures than at lower temperatures. HCN was a decomposition product at high temperature, suggesting that its presence could be used for detecting thermal faults in meta-aramid fibers. Generation path tracing of the thermal decomposition products NH3 and H2O was also performed. NH3 was produced when the NH2 group captured an H atom adjacent to the system. H2O was formed after a carbonyl group captured an H atom, became a hydroxyl group, with subsequent intramolecular dehydration or intermolecular hydrogen abstraction.
Title: Molecular Dynamics Simulations on the Thermal Decomposition of Meta-Aramid Fibers
Description:
The thermal decomposition mechanism of a meta-aramid fiber was simulated at the atomic level using the ReaxFF reactive force field.
The simulation results indicated that the main initial decomposition positions of the meta-aramid fiber elements were Caromatic ring–N and C=O, which could be used as targets for the modification of meta-aramid fibers.
The meta-aramid fiber elements first decomposed into C6–C13 and then into smaller segments and micromolecular gases.
The temperature was shown to be the key factor affecting the thermal decomposition of the meta-aramid fibers.
More complex compositions and stable gases were produced at high temperatures than at lower temperatures.
HCN was a decomposition product at high temperature, suggesting that its presence could be used for detecting thermal faults in meta-aramid fibers.
Generation path tracing of the thermal decomposition products NH3 and H2O was also performed.
NH3 was produced when the NH2 group captured an H atom adjacent to the system.
H2O was formed after a carbonyl group captured an H atom, became a hydroxyl group, with subsequent intramolecular dehydration or intermolecular hydrogen abstraction.
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