Nina Yao scite author profile

In this paper, an investigation was performed to study the influence of irradiation heat on the structure and thermal properties of PTFE samples. The tribological properties of POM/irradiated‐PTFE composites were also compared. The results revealed that shortening the interval time of irradiation could induce higher surface temperature and produce more carboxyl groups and trifluoromethyl groups. Additionally, these bulky groups were partly incorporated into the crystalline region of PTFE, which increased the lattice parameters. The decreased interval time accelerated chain scission reactions, causing the Tm and T5% of irradiated PTFE with interval time of 6 min dropped by 12.1 and 107.6°C, respectively, compared with the unirradiated PTFE. More importantly, the POM/A1600 (weight ratio of 90/10) composites were endowed with the lowest friction coefficient of about μ = 0.129 due to the highest transfer film content formed on the friction pair after sliding. The study of the influence of irradiation heat on the degradation of PTFE could provide some theoretical basis for optimizing the electron beam irradiation process and achieving the controllable design of high degradable PTFE. This research could provide a new idea for the utilizing of irradiation heat in the fields of material modification.

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Preparation and characterization of 316L spherical powder for different uses by supersonic laminar flow atomization

Zhang

Qiu

et al. 2018

Ferroelectrics

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Nina Yao

Stearic acid coating on circulating fluidized bed combustion fly ashes and its effect on the mechanical performance of polymer composites

Controllable design of polytetrafluoroethylene chemical component using the “harmful” irradiation heat

Preparation and characterization of 316L spherical powder for different uses by supersonic laminar flow atomization

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