The capabilities of 3D printing keep growing. Over the past two decades, we’ve seen the technology used in everything from furniture and lighting to
When it comes to 3D printing, as with all of the processes it explores,
A recent project, led by Ioanna Mitropoulou, a doctoral researcher in the Digital Building Technologies group at ETH Zurich, continues this discourse. Fluid Forms takes the shape – or shapes – of a translucent plastic sculpture, standing two metres tall. Its 40 components (printed separately and held together with screws) demonstrate the ability of robotic manufacturing to produce double-curved thin shells rather than planar modules. The result is a tangible illustration of Mitropoulou’s fascinating exploration of “
The team behind Fluid Forms stresses the efficiency of this new process, which uses non-planar print paths, “realized with the motion agility of robotic arms.” Inspired by the
To increase the structure’s sturdiness, the team introduced undulations that are orthogonal to the print direction. “This innovative approach opens new horizons for constructing large-scale lightweight structures in architecture with unprecedented precision and material economy,” the researchers explain.
By weaving together two hues of translucent materials – a colourless and a blue plastic thread that morph from vertical to horizontal striations – the project communicates its underlying geometry, “showing a hidden layer of information and creating a new realm of unseen aesthetics that celebrates the agility of robotic manufacturing.” Depending on how one approaches it, the installation looks by turns opaque and transparent, its geometries curving in on themselves in surprising ways. At once materially efficient and an aesthetic marvel, it appears like an uncanny object crafted from both human and robotic arms. Printed over three weeks – that’s 140 hours of active machine time – the entire piece can be disassembled and recycled.
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