Chongwei Du scite author profile

Chongwei Du

3Publications

44Citation Statements Received

44Citation Statements Given

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Affiliations

Wuhan Research Institute of Materials Protection, Wuhan University of Technology, Ministry of Transport

Publications

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Preparation of Superhydrophobic Steel Surfaces with Chemical Stability and Corrosion

Tian

et al. 2019

Coatings

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Corrosion seriously limits the long-term application of Q235 carbon steel. Herein, a simple fabrication method was used to fabricate superhydrophobic surfaces on Q235 carbon steel for anticorrosion application. The combination of structure and the grafted low-surface-energy material contributed to the formation of superhydrophobic steel surfaces, which exhibited a water contact angle of 161.6 • and a contact angle hysteresis of 0.8 • . Meanwhile, the as-prepared superhydrophobic surface showed repellent toward different solutions with pH ranging from 1 to 14, presenting excellent chemical stability. Moreover, the acid corrosive liquid (HCl solution with pH of 1) maintained sphere-like shape on the as-prepared superhydrophobic surface at room temperature, indicating superior corrosion resistance. This work provides a simple method to fabricate superhydrophobic steel surfaces with chemical stability and corrosion resistance.

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Modification of a derived antimicrobial peptide on steel surface for marine bacterial resistance

Cao

et al. 2020

Applied Surface Science

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Effects of UV irradiation time on the molecular structure of typical engineering plastics and tribological properties under heavy load

Liu

Duan

Wang

et al. 2022

High Performance Polymers

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Exposing engineering plastics to UV irradiation can easily destroy the original molecular structure of the materials and consequently affect their tribological properties. This study investigated the effects of UV irradiation on the molecular structure of typical engineering plastics, such as polytetrafluoroethylene (PTFE) and polyether ether ketone (PEEK), and on their tribological properties under heavy loads (20 MPa). The surface morphology results showed that the appearance of PEEK changed significantly under UV irradiation. However, the change in PTFE was negligible. Under micromorphology, the processing lines of the two materials gradually became lighter with increasing UV irradiation time. The resulting infrared spectra showed that the molecular chains of both materials were broken, and new functional groups were formed under UV irradiation. Tribology testing demonstrated that with prolonged UV irradiation, the average PTFE coefficient of friction remained relatively stable, whereas that of PEEK was approximately 0.55. As the UV irradiation time increased, the wear rate of PTFE increased significantly, whereas that of PEEK showed no significant change.

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Chongwei Du

Preparation of Superhydrophobic Steel Surfaces with Chemical Stability and Corrosion

Modification of a derived antimicrobial peptide on steel surface for marine bacterial resistance

Effects of UV irradiation time on the molecular structure of typical engineering plastics and tribological properties under heavy load

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