Ciavarella, MicheleMicheleCiavarellaWang, Qing AoQing AoWangLi, QunyangQunyangLi2022-06-142022-06-142023Journal of Adhesion 99 (6): 972-987 (2023)http://hdl.handle.net/11420/12882We derive an extension of the Maugis-Dugdale-Johnson-Greenwood model for 2D adhesive Hertzian contact to viscoelastic materials. This results in extremely simple approximate results for the maximum amplification of the pull-off due to viscoelastic effects, for arbitrary form of the viscoelastic linear properties. In particular, we assume that the initial loading state is fully relaxed, and unloading occurs at very large pulling speeds. We show that the maximum amplification (of the order of (Formula presented.), the ratio between instantaneous and relaxed modulus to the 2/3 power) is only reached for large and soft cylinders, namely, large enough (relaxed) Tabor-Maugis parameters (Formula presented.) of the order of the order of (Formula presented.), and therefore typically much larger than the Tabor-Maugis parameters to have a “short-range” JKR adhesion regime in quasi-static conditions, which is (Formula presented.). The results agree well with recent numerical ones by Muser-Persson, but there is an shift factor in the Tabor-Maugis parameter which requires further study and may depend on initial contact area.en1545-5823Journal of adhesion20236972987Taylor & Francisadhesioncohesive modelsJKR modelsViscoelasticityMaugis-Tabor parameter dependence of pull-off in viscoelastic line Hertzian contactsJournal Article10.1080/00218464.2022.2066998Journal Article