 Abstract manufacturing abrasion resistant superhydrophobic materials is difficult due to the fragile nature of the micro dash slash nanoscale surface roughness. In addition to long term durability, large scale at meter level, and 3D complex structures, abrasion resistance is important for superhydrophobic objects used across various industries. Selective laser sintering, SLS, 3D printing technology was used to create superhydrophobic objects with desired 3D structures, from hydrophobic fumed silica, HFS, and polymer composite grains. These objects retain their anti-wetting properties even after undergoing different abrasion tests, such as knife cutting, rude file grinding, 1000 cycles of sandpaper friction, tape testing, and quick sand impacting. This strategy could be used to manufacture a shell of an unmanned aerial vehicle, UAV, and an abrasion resistant superhydrophobic shoe, demonstrating the industrial customization of large scale superhydrophobic objects. The findings suggest that this method may. This article was authored by Genoa Wu, Songkensher, Aokinshan, and others.