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Wettability control and oil/water separation performance of<scp>3D</scp>‐printed porous materials

Yonggang Guo, Bingpeng Luo, Xinchao Wang, Shihua Liu, Tie Geng

2021Journal of Applied Polymer Science19 citationsDOI

Abstract

Abstract In this paper, polylactic acid porous materials were prepared by a fused deposition modeling 3D printing method. Then, a combination of methyl ethyl ketone (MEK) solution etching containing hydrophobic nano‐silica (HN‐SiO 2 ) and low surface energy fluorosilane modification was used to obtain the samples with different wettability. The effect of immersion time in MEK solution and HN‐SiO 2 content on the wettability of porous samples was investigated. Finally, the sample with the highest contact angle and extremely low sliding angle was selected for the oil/water separation test. The separation efficiency of oil/water separators with hole side lengths of 0.8, 1.0, and 1.2 for five different oil/water mixtures was investigated. The results show that the oil/water separator with a hole side length of 1.0 mm has a better primary separation effect. With the increase of the hole size of the oil–water separator, the effect of multiple separations is unfavorable. The oil/water separator with hole side length of 0.8 mm has repeatable oil/water separation performance many times. This research provides a new idea for the application of the oil/water separator with a hole side length greater than 0.6 mm printed by an ordinary, inexpensive, low‐precision fusion 3D printer.

Topics & Concepts

Contact angleSeparator (oil production)WettingMaterials sciencePorosityPorous mediumChemical engineeringPolylactic acidComposite materialPolymerPhysicsThermodynamicsEngineeringSurface Modification and SuperhydrophobicityAdditive Manufacturing and 3D Printing TechnologiesAdvanced Sensor and Energy Harvesting Materials