Enhancement of Friction against a Rough Surface by a Ridge–Channel Surface Microstructure Ying Bai Chung-Yuen Hui Benjamin Levrard Anand Jagota 10.1021/la503838e.s001 https://acs.figshare.com/articles/journal_contribution/Enhancement_of_Friction_against_a_Rough_Surface_by_a_Ridge_Channel_Surface_Microstructure/2150458 We report on a study of the sliding friction of elastomeric surfaces patterned with ridges and channels (and unstructured flat controls), against both smooth and roughened spherical indenters. Against the smooth spherical indenter, all of the structured surfaces have highly reduced sliding friction due to the reduction in actual area of contact. Against roughened spherical indenters, however, the sliding force for structured samples can be up to 50% greater than that of an unstructured flat control. The mechanism of enhanced friction against a rough surface is due to a combination of increased actual area of contact, interlocking between roughness and the surface structure, and attendant dynamic instabilities that dissipate energy. 2015-07-14 00:00:00 contact elastomeric surfaces Rough Surface indenter surface structure