Dynamic data physicalization by unimorph dielectric elastomer actuators

Gareis, Michael; Çabuk, Ozan; Maas, Jürgen

doi:10.1117/12.2661518

Electroactive Polymer Actuators and Devices (EAPAD) XXV 2023

DOI: 10.1117/12.2661518

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Dynamic data physicalization by unimorph dielectric elastomer actuators

Michael Gareis

Ozan Çabuk

Jürgen Maas

Abstract: Physicalization helps the user understand complex data intuitively. Especially when confronted with complex, multidimensional datasets as in the smart home environment, classic graphical user interfaces struggle to visualize data in a way compatible with the paradigm of Calm Technology and new means of displaying data need to be explored, to decrease the cognitive burden on the user. Shape changing interfaces (SCI) using smart materials can change their appearance under electrical stimuli and provide the means… Show more

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2024

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Selective laser-cutting for sheet-to-sheet manufacturing process of dielectric elastomer transducers

Krüger,

Maas

2024

Electroactive Polymer Actuators and Devices (EAPAD) XXVI

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Dielectric elastomer (DE) transducers consist of thin elastomer films and compliant conductive electrodes on each side. Several DE-based systems, e. g. DE stack transducers, loudspeakers or sensors, have a great potential in industrial applications. Using a sheet-to-sheet film handling process enables laminating thin, pre-fabricated elastomer sheets which are characterized by reproducible and homogeneous properties. In combination with a droplet-based electrode application process, multilayer DE transducers can be manufactured. For successfully integrating DE transducers into higher-level processing systems, manufactured large-scale DE laminates must be precisely cut into smaller DE units. Moreover, the electric contact points need to be advantageously designed to enable a reliable electrical interlayer connection and low contact resistance for external electrical bonding. For this purpose, an alternative laser-cutting concept is presented which comprises the selective cutting of each laminated elastomer layer and its integration into the DE manufacturing process. Based on theoretical preliminary considerations, an 18 W CO 2 -laser is selected and test on cutting 50 µm thin Wacker Elastosil 2030 films are carried out. Using one elastomer film on a PET liner suitable laser parameters for cutting the elastomer without significantly damaging the layer below are determined experimentally. By integrating laser-cutting into the DE manufacturing process, a DE laminate is produced and the cut edges are visually inspected. The results show that the presented concept works in general.

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Selective laser-cutting for sheet-to-sheet manufacturing process of dielectric elastomer transducers

Krüger,

Maas

2024

Electroactive Polymer Actuators and Devices (EAPAD) XXVI

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show abstract

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Dynamic data physicalization by unimorph dielectric elastomer actuators

Cited by 1 publication

References 12 publications

Selective laser-cutting for sheet-to-sheet manufacturing process of dielectric elastomer transducers

Selective laser-cutting for sheet-to-sheet manufacturing process of dielectric elastomer transducers

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