Self-Propelling Rotator Driven by Soluto-Capillary Marangoni Flows

Anton Starostin; Edward Bormashenko; Evgeny Shulzinger; Gene Whyman; Mark Frenkel

arxiv: 1710.09134 · v1 · pith:AXCYCBQJnew · submitted 2017-10-25 · ❄️ cond-mat.soft

Self-Propelling Rotator Driven by Soluto-Capillary Marangoni Flows

Mark Frenkel , Gene Whyman , Evgeny Shulzinger , Anton Starostin , Edward Bormashenko This is my paper

classification ❄️ cond-mat.soft

keywords camphorrotatordissolutiondrivenflowsmarangoniself-propulsionarising

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The self-propelled, longstanding rotation of the polymer tubing containing camphor continuing for dozens of hours is reported. The rotator is driven by the solutocapillary Marangoni flows owing to the dissolution of camphor. The phenomenological model of self-propulsion is suggested and verified. Scaling laws describing the quasi-stationary self-propulsion are proposed and tested experimentally. The change in the surface tension, arising from the dissolution of camphor and driving the rotator is estimated as 0.3 mN/m.

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Self-Propelling Rotator Driven by Soluto-Capillary Marangoni Flows

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