Haifeng Zhang scite author profile

In this research, the anisotropic superhydrophobic surface is prepared on a stainless steel surface by laser etching, and the drag reduction property of the anisotropic surface is studied by a self-designed solid−liquid interface friction test device. Periodic arrangement structures of quadrate scales with oblique grooves are obtained on a stainless steel surface by a laser. After modification by fluoride, the surface shows superhydrophobicity and anisotropic adhesive property. Here, the inclined direction of grooves and the inverse direction are defined as RO and OR, respectively. By changing the inclination of the grooves, a surface is obtained with a contact angle of 160°and a rolling angle difference of 6°along the RO and inverse RO direction. It is verified by numerical simulation and experiment that the subjected force of water droplets on the surface is different along the RO and inverse RO direction. Furthermore, the as-prepared surface has different drag reduction effects along the two directions. With the increase of velocity, the drag reduction effect of the superhydrophobic surface decreases against the RO direction, while the drag reduction effect along the RO direction is almost unchanged. We believe the anisotropic surface will be helpful in novel microfluid devices and shipping transportation.

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One-step hydrothermal method to fabricate drag reduction superhydrophobic surface on aluminum foil

Tuo

Chen

Zhang

et al. 2018

Applied Surface Science

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Wetting behavior and drag reduction of superhydrophobic layered double hydroxides films on aluminum

Zhang

Yin

Liu

et al. 2016

Applied Surface Science

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We present a novel method to fabricate Zn-Al LDH (layered double hydroxides) film with 3D flower-like micro-and nanostructure on the aluminum foil. The wettability of the Zn-Al LDH film can be easily changed from superhydrophilic to superhydrophobic with a simple chemical modification. The as-prepared superhydrophobic surfaces have water CAs (contact angles) of 165±2 °. In order to estimate the drag reduction property of the surface with different adhesion properties, the experimental setup of the liquid/solid friction drag is proposed. The drag reduction ratio for the as-prepared superhydrophobic sample is 20~30% at low velocity. Bearing this in mind, we construct superhydrophobic surfaces that have numerous technical applications in drag reduction field.

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Facile and fast fabrication method for mechanically robust superhydrophobic surface on aluminum foil

Zhang

Yin

Shi

et al. 2015

Microelectronic Engineering

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Haifeng Zhang

Drag Reduction of Anisotropic Superhydrophobic Surfaces Prepared by Laser Etching

One-step hydrothermal method to fabricate drag reduction superhydrophobic surface on aluminum foil

Wetting behavior and drag reduction of superhydrophobic layered double hydroxides films on aluminum

Facile and fast fabrication method for mechanically robust superhydrophobic surface on aluminum foil

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