Chemical Engineering Science, Vol.195, 791-800, 2019
Controllable wettability on stainless steel substrates with highly stable coatings
A rotating packed bed (RPB) is one of the typical process intensification equipment and its performance can be influenced by the surface wettability of packings. However, tuning the surface wettability of the packing by the surface-modification method is still a challenge due to the extreme physical and chemical environment in RPBs. This work presents a facile strategy for controlling the surface wettability on the stainless steel substrate with a series of highly stable coatings. The water contact angles on the surfaces can be tuned from 75 degrees to 160 degrees. Based on the systematical analysis from the micro-characteristics (surface microstructure and surface free energy) to the macro-wettabilities (water contact angle) of the prepared coatings, the structure-function relationship of these coatings was revealed with wetting models. Application performance testing indicates that the coatings displayed strong adhesion, long-time corrosion resistance, and liquid impinging resistance under high-gravity conditions. This work opens a new avenue to produce highly stable coatings on stainless steel substrates with controllable wettability, which is very helpful to the wettability control for the stainless steel wire mesh packing of RPBs for industrial applications. (C) 2018 Elsevier Ltd. All rights reserved.
Keywords:Controllable wettability;Stainless steel substrate;Structure-function relationship;Dynamic wettability;Stable coatings