2021
DOI: 10.1016/j.jmps.2020.104194
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Contact with coupled adhesion and friction: Computational framework, applications, and new insights

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Cited by 58 publications
(24 citation statements)
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“…In the next section, this claim is supported by a simplified FEM calculation for a non-adhesive, tangential contact between a finger and smooth rigid plate, taking into account non-linear elastic material behavior. Note, that very recently a similar finding concerning a smooth contact between a soft cylindrical cap and a rigid plate was made by Mergel et al (2020). They have shown that the contact length decreased under tangential shear even in the absence of adhesion.…”
Section: Tangential Contact Under Full Stick Assumption-peelingsupporting
confidence: 61%
“…In the next section, this claim is supported by a simplified FEM calculation for a non-adhesive, tangential contact between a finger and smooth rigid plate, taking into account non-linear elastic material behavior. Note, that very recently a similar finding concerning a smooth contact between a soft cylindrical cap and a rigid plate was made by Mergel et al (2020). They have shown that the contact length decreased under tangential shear even in the absence of adhesion.…”
Section: Tangential Contact Under Full Stick Assumption-peelingsupporting
confidence: 61%
“…Based on the two models, the peeling behaviors of the strip that simulates the peeling of the spatula were explored again, and some conclusions that are similar to the gecko adhesion could be obtained: the sliding of the spatula near the peeling front can pre-stretch the spatula, thereby increasing the peeling force; the peeling of the spatula exists the critical detachment angle; the spatula can be easily detached from the substrate by changing the shaft angle and adopting a vertical peeling method [59,60]. Although the two models have been extended to three dimensions by researchers [61], the assumption that the static friction threshold based on the macroscopic measurement is consistent with the resistance for kinetic friction still needs to be verified on the local contact area. In addition, although the two models couple with the adhesion and the friction, as the researchers emphasized, the tangential friction is dependent on the normal adhesion rather than that the normal adhesion is dependent on the tangential friction in the two coupled models, which is just the opposite of the mechanism of frictional adhesion of gecko's foot.…”
Section: The Adhesive Model Of Gecko's Footmentioning
confidence: 99%
“…Although these early models are limited to simple, normal-load scenarios, they inspired numerous subsequent researches that offer an extension to mixed-load schemes involving normal and tangential loads. We also note a few recent achievements based on finite element continuum contact models that incorporate mixed mode constitutive interface laws [13,17,18], all of which can describe the reaction of adhesive interfaces under complex load involving tension and shear. In this work, in order to simulate complex interface behaviours with reversible adhesion, we adopt the Raous-CangĂ©mi-Cocou (RCC) model [19][20][21][22], which over the years has confirmed its robustness in dealing with adhesive frictional contact.…”
Section: Introductionmentioning
confidence: 99%