A kind of lyophobic superslip interface and preparation method thereof
A lyophobic and interfacial technology, applied in the field of materials, can solve problems such as cumbersome and complicated methods, high sample size and shape requirements, and complicated preparation methods, and achieve broad application prospects, excellent repulsion, and simple preparation methods.
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Embodiment 1
[0017] (1) After grinding and polishing the 7075 aluminum alloy, put it into a dilute nitric acid solution with a concentration of 1.2mol / L, and corrode it for 2 minutes under the assistance of 170W ultrasonic waves;
[0018] (2) Take out the sample obtained in step (1), wash it with alcohol, dry it at room temperature, put it into a hexane solution of 0.03mol / L heptadecafluorodecyltriethoxysilane, and modify it at 40°C for 2h , taken out, washed with hexane and dried at room temperature;
[0019] (3) Inject perfluorotripentylamine into the sample obtained in step (2), and the injection amount is 0.008g / cm 2 , a lyophobic superslippery interface is obtained.
[0020] On the prepared liquid-repellent super-slip interface, the kerosene contact angle is 50° (such as figure 1 shown), the hexane contact angle is 30° (as figure 2 shown), and it can slide smoothly on the prepared super-slippery interface (such as image 3 As shown, kerosene was stained with Oil Red O), it can be...
Embodiment 2
[0022] (1) After grinding and polishing the 7075 aluminum alloy, put it into a dilute nitric acid solution with a concentration of 1.0mol / L, and corrode it for 1min under the assistance of 150W ultrasonic waves;
[0023] (2) Take out the sample obtained in step (1), wash it with alcohol and dry it at room temperature. Put it into a 0.01mol / L hexane solution of heptadecafluorodecyltriethoxysilane, modify it at 30°C for 2 hours, take it out, wash it with hexane, and dry it at room temperature;
[0024] (3) Inject perfluorotripentylamine into the sample obtained in step (2), and the injection amount is 0.005g / cm 2 , a lyophobic superslippery interface is obtained.
[0025] The prepared interface has a kerosene contact angle of 40° and a hexane contact angle of 20°, and can slide smoothly on the interface, indicating that a super-slippery interface with lyophobic effect has been obtained.
Embodiment 3
[0027] (1) After grinding and polishing the 7075 aluminum alloy, put it into a dilute nitric acid solution with a concentration of 1.4mol / L, and corrode it for 3 minutes under the assistance of 200W ultrasonic waves;
[0028] (2) Take out the sample obtained in step (1), wash it with alcohol and dry it at room temperature. Put 0.04mol / L heptadecafluorodecyltriethoxysilane in hexane, modify at 40°C for 1.5h, take it out, wash it with hexane and dry it at room temperature;
[0029] (3) Inject perfluorotripentylamine into the sample obtained in step (2), and the injection amount is 0.01g / cm 2 , a lyophobic superslippery interface is obtained.
[0030] The prepared interface has a kerosene contact angle of 35° and a hexane contact angle of 25°, and can slide smoothly on the interface, indicating that a super-slippery interface with lyophobic effect has been obtained.
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