Anti-Corrosion Flocking Surface with Enhanced Wettability and Evaporation DOI Open Access

Die Lü,

Jing Ni, Zhen Zhang

et al.

Materials, Journal Year: 2024, Volume and Issue: 17(16), P. 4166 - 4166

Published: Aug. 22, 2024

The corrosion protection of tool steel surfaces is significant importance for ensuring cutting precision and cost savings. However, conventional surface measures usually rely on toxic organic solvents, posing threats to the environment human health. In this regard, an integrated process laser texturing electrostatic flocking introduced as a green anti-corrosion method high-speed (HSS) surface. Drawing from principles textured energy barrier reduction fiber array capillary water evaporation enhancement, with synergistic optimization wettability performance was achieved. Then, contact tests using 0.1 mol/L NaCl droplets were performed. Contact angles representing change in droplet mass properties collected. elements chemical bonds presented corroded characterized by X-ray photoelectron spectroscopy (XPS). results revealed that exhibited lowest degree when compared smooth surfaces. Corrosion resistance achieved through rapid spread droplets, which reduced reaction time mitigated electrochemical corrosion. This innovative holds promise effective treatment strategies tools.

Language: Английский

Anti-Corrosion Flocking Surface with Enhanced Wettability and Evaporation DOI Open Access

Die Lü,

Jing Ni, Zhen Zhang

et al.

Materials, Journal Year: 2024, Volume and Issue: 17(16), P. 4166 - 4166

Published: Aug. 22, 2024

The corrosion protection of tool steel surfaces is significant importance for ensuring cutting precision and cost savings. However, conventional surface measures usually rely on toxic organic solvents, posing threats to the environment human health. In this regard, an integrated process laser texturing electrostatic flocking introduced as a green anti-corrosion method high-speed (HSS) surface. Drawing from principles textured energy barrier reduction fiber array capillary water evaporation enhancement, with synergistic optimization wettability performance was achieved. Then, contact tests using 0.1 mol/L NaCl droplets were performed. Contact angles representing change in droplet mass properties collected. elements chemical bonds presented corroded characterized by X-ray photoelectron spectroscopy (XPS). results revealed that exhibited lowest degree when compared smooth surfaces. Corrosion resistance achieved through rapid spread droplets, which reduced reaction time mitigated electrochemical corrosion. This innovative holds promise effective treatment strategies tools.

Language: Английский

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