Design studio Mickus Projects has introduced a new 3D-printed chandelier made entirely from sustainable bioplastic materials. The Hedron Pendant features a honeycomb-shaped lampshade produced using polylactic acid derived from corn and sugar sources, containing no petroleum-based components. The design draws inspiration from Danish midcentury designer Poul Henningsen’s work with glare-free lighting.
The pendant’s distinctive hexagonal pattern wraps around a central stem housing an LED light source. Its structure consists of tapered cell walls specifically angled to create a double-bounce effect from the internal LED, resulting in soft, diffused illumination. The manufacturing process generates zero waste, as the 3D printing method requires no cutting or adhesives.
Ben Mickus, the studio’s founder and trained architect, developed the design following his time in Copenhagen studying Danish modern design. The natural world also influenced the chandelier’s form, incorporating elements reminiscent of honeycomb structures, turtle shells, and insect eyes. The fixture’s stem utilizes standard lamp components with a custom CNC-cut bracket that eliminates the need for additional fasteners.
The Hedron Pendant is available in multiple sizes to accommodate various settings, from small night lights to large lobby installations. Customers can opt for an additional white ceramic coating to enhance shadow effects on the otherwise translucent shade. The fixture is designed for both indoor and outdoor use, making it suitable for residential, commercial, and hospitality applications.
Source: dezeen.com
