Materials & Design (Oct 2022)

Fine liquid-core polymer fibers for microhydraulic applications: A versatile process design

  • Rudolf Hufenus,
  • Jonas Hofmann,
  • Ali Gooneie

Journal volume & issue
Vol. 222
p. 111077

Abstract

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Miniaturization is an essential requirement to advance areas where conventional mechatronic systems may struggle. Microhydraulic devices that combine resilience and compliance could thus revolutionize microrobot applications like locomotion and manipulation. Spurred by the deformability and structural stability provided by veins in insect wings, microscale liquid-core fibers were created, comprising of a polymeric sheath and a liquid core. A microfluidic co-extrusion spinneret was designed, assisted by computational fluid dynamics studies, to achieve such unique liquid-core fibers. Hydraulic pressure transfer tests were successfully applied on fine, up to 10 m long, oil-filled polyamide fibers. The results showed a pressure transfer with a fiber length-dependent delay of ∼ 20–100 s for fiber lengths of ∼ 1–10 m, and a viscoelastic behavior with relaxation times that behave linearly with fiber length. These findings enable the development of resilient and deformable microhydraulic systems within restricted available space, predestined for applications in soft robotics.

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