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DesignUnited.Expo Changing Gears

Expressive Mechanisms

From Petri Dish to Performativity

Sticky Soft Robots — © Marica De Michele

Expressive Mechanisms bridges scientific inquiry with material-led, body-based experimentation, emphasizing how these magnetic soft robotics can animate expressive and responsive interactions. Our interdisciplinary project combines bio-mechanical engineering, interaction design, and dramaturgy.

Can we turn magnetic soft robots into performative experiences?

Soft robotics often centers on bio-inspired mechanisms like suction cups and grippers, typically developed in tech-centric environments such as labs and makerspaces. While these spaces facilitate material exploration, they can lack broader socio-cultural relevance. Bridging this gap involves integrating arts-based methodologies to create a new class of soft technologies, encouraging embodied and affective human engagement (Jørgensen, 2023).

Our interdisciplinary project combines bio-mechanical engineering, interaction design, and dramaturgy. From magnetic actuation research at UT, we developed interactive magnetic structures through a material-led approach at TU/e’s Material Aesthetics Lab, programmed with an impulse magnetizer at TU/e’s Electromechanics & Power Electronics. The project culminated in an experimental workshop on performativity and body-based interaction with the Dramaturgy for Devices project at Innovation:Lab, Theater Utrecht.

Approach

Our journey begins in the petri dish, where ferromagnetic particles are embedded into soft silicon structures (Venkiteswaran et al., 2020). Shape-programmable magnetic soft materials offer an untethered, precisely programmable, controllable alternative to conventional soft robotics actuators. Magnetic actuation allows objects to move, shift, and transform with a seemingly ethereal responsiveness.

This material exploration continues in the maker space, where we bridge the gap from lab-based experimentation to performativity, transforming these soft technologies into a library of tools for embodied and interactive experiences.
This transition bridges scientific inquiry with material-led, body-based experimentation, emphasizing how these magnetic forms can animate expressive and responsive interactions. By integrating the lab, maker space, and theatre studio, we collaboratively explore the potential for these soft robotic technologies to evolve beyond technical functionalities, becoming tools for immersive, affective human engagement.

Impact

As robots increasingly permeate our living environments, soft magnetic forms challenge conventional robotic design, offering immersive experiences that engage users with otherness—an encounter with the familiar and the alien (Boer and Bewley, 2018). During the workshop, participants engaged with magnetic activator-actuator props, assembling and co-creating narratives through speculative enactments. We introduced concepts from dramaturgy as a lens for reflecting on these enactments, sharing insights, and discussing their broader implications. Through this creative exploration, we aim to foster a deeper understanding of how soft robotic systems can enrich our everyday lives, moving beyond utility to cultivate more expressive, embodied forms of interaction. While promising, these experiments face challenges in scalability and require specialized environments for magnetic interactions.

Grounded in performative new materialist perspectives (Barad, 2007; Gemeinboeck, 2021), this hands-on experience invites the audience to re-think soft robots not simply as functional tools but as relational and performative materials.

About Amy Winters

The TU/e Material Aesthetics Lab is an overarching research lab with a focus on designing with advanced materials and exploring their emerging aesthetics. The lab works at the intersection of interaction design, materials science, robotics, and biology.

Other — © Marica De Michele

What do we do with the shared intelligence? — © Marica De Michele