Derong Duan scite author profile

In this paper, a variety of micro-textures made by imitating the biological body surface are mentioned, and four common biomimetic texture types—convex hull, pit, groove and corrugation—are summarized by referring to a large number of literatures. These texture types that are widely used are those of the grooves and the pits of non-smooth surface because their viscosity drag reduction effects are relatively optimal for wear-resistance; in view of these two types of textures (with others including pit diameter, groove width, depth and area of share, and morphology spacing), we use data analysis and comparisons to find optimal parameter values in order to find the optimal effect of drag reduction and anti-sticking wear-resistance. Several texture processing methods are briefly introduced through case analysis and an illustration of the viscosity drag reduction mechanism of wear-resistance, and general fluid dynamic pressure is deduced from a theory formula in order to facilitate future research work on the basis of the optimal parameters to further improve the friction, wear lubrication, and hydrophobic properties, thus improving the bionic texture surface efficiency of saving energy and reducing consumption in industrial applications.

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Numerical investigation on heat transfer performance of planar elastic tube bundle by flow-induced vibration in heat exchanger

Duan

2016

International Journal of Heat and Mass Transfer

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Derong Duan

Study on force and wave energy conversion efficiency of buoys in low wave energy density seas

Doping and interface engineering in a sandwich Ti₃C₂T_x/MoS_2−xP_x heterostructure for efficient hydrogen evolution

Optimization of Performance Parameters and Mechanism of Bionic Texture on Friction Surface

Numerical investigation on heat transfer performance of planar elastic tube bundle by flow-induced vibration in heat exchanger

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Derong Duan

Study on force and wave energy conversion efficiency of buoys in low wave energy density seas

Doping and interface engineering in a sandwich Ti3C2Tx/MoS2−xPx heterostructure for efficient hydrogen evolution

Optimization of Performance Parameters and Mechanism of Bionic Texture on Friction Surface

Numerical investigation on heat transfer performance of planar elastic tube bundle by flow-induced vibration in heat exchanger

Contact Info

Product

Resources

About

Doping and interface engineering in a sandwich Ti₃C₂T_x/MoS_2−xP_x heterostructure for efficient hydrogen evolution