Laser ablative patterning of B <sub>4</sub> C and MoAlB ceramics for hydrophobic surfaces
Samuel Ruíz, Yongchul Yoo, Luke Wadle, Xin Chen, Nan Li, Yongfeng Lu, Christopher J. Wohl, Valerie L. Wiesner, Bai Cui
Abstract
Abstract Through a novel laser ablative patterning (LAP) process, the present work reported the increase in wetting contact angle of two ceramic materials, boron carbide (B 4 C) and molybdenum aluminum boride (MoAlB). The LAP technique employed picosecond laser pulses to form a crosshatch pattern with micropillars on ceramic surfaces. The wetting behavior of both ceramic surfaces was successfully transitioned from hydrophilic ( θ < 90°) to hydrophobic ( θ > 90°), which was related to Wenzel and Cassie–Baxter mechanisms. Parameters such as laser fluence and number of laser scans were varied to study their effects on ceramic surface characteristics. Lunar dust adhesion experiments were performed on these hydrophobic ceramic surfaces, which showed that the adhesion of lunar soil simulant dust particles was significantly reduced in the patterned B 4 C and MoAlB surfaces.