2006
DOI: 10.1016/j.vacuum.2005.10.002
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Analytical modelling of suction cups used for window-cleaning robots

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Cited by 42 publications
(21 citation statements)
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“…In their mathematical model, the authors formulated the contact phenomena using Lagrange constraints, but did not provide simulations of their model. Some years later, Liu et al presented an analytical modelling of suction cups for window-cleaning robots [5], in which friction was omitted by considering that the window surface was always perfectly wet. Through a quantitative study of the attachment and detachment of a passive suction cup, Ge et al modeled the forces acting on the cup considering only the vertical ones for the sake of simplicity [6].…”
Section: A Suction Cup Modelingmentioning
confidence: 99%
“…In their mathematical model, the authors formulated the contact phenomena using Lagrange constraints, but did not provide simulations of their model. Some years later, Liu et al presented an analytical modelling of suction cups for window-cleaning robots [5], in which friction was omitted by considering that the window surface was always perfectly wet. Through a quantitative study of the attachment and detachment of a passive suction cup, Ge et al modeled the forces acting on the cup considering only the vertical ones for the sake of simplicity [6].…”
Section: A Suction Cup Modelingmentioning
confidence: 99%
“…The active area of the suction cup [15] is proposed for further analyzing the principles of the vibrating suction methods, which produces the negative air pressure by vibrating suction cups. As shown in Fig.13, the attachment area of the silicone rubber suction cup will change when the cup is compressed.…”
Section: A Active Area Of the Suction Cupmentioning
confidence: 99%
“…A simple alternative to such reusable adhesives is cratered surfaces [2,3,6,21]. Unlike suction cups, usually formed by thin-walled structures [16,17] In the next section, we will show that this approach, based on the assumption of small deformations, is insufficient for characterizing the suction effect, as it requires one to consider large deformations. Also, Akerboom et al observed enhanced adhesion for PDMS with 100 nm diameter craters and found that the pull-off force depends on the crater geometry and preload [21].…”
Section: Introductionmentioning
confidence: 99%