The Komorebi Pavilion represents a collaborative project between the GSD, Tokyo University, and Autodesk's BUILD Space in South Boston. The project emerged from a two-day November workshop in which structural engineer Jun Sato (Tokyo University) challenged students to design a fully transparent structure using advanced computational analysis to guide form-making. The chosen material is PETG, a non-toxic, pliable plastic whose various structural properties were imported to HOGAN software to predict behavior and deflection. Students were challenged to imagine non-traditional forms and irregular patterning that could produce shimmering, dappled light (“komorebi” in Japanese) within the pavilion.
Over J-Term, a team of eight GSD students led by Associate Professor in Practice Mark Mulligan and Teaching Fellow Ignacio Cardona (DDes) moved the site of operation to Autodesk's BUILD Space, an immense state-of-the-art fabrication facility in South Boston, dedicated to advancing architectural research and knowledge through collaboration across disciplines.
Over ten days, the team fabricated and assembled nearly 800 identical “snowflake” shaped PETG modules (3/32″ thick) that could be slotted, notched, and interlocked together directly in multiple ways, allowing construction to proceed without the use of metal clips or other conventional fittings. Varying densities and curvatures of overlapping PETG modules produce an astonishing set of spatial effects. The Komorebi Pavilion will be on display at BUILD Space through early February.
Working in teams of four, students in Mulligan's fall 2016 course (Cases in Contemporary Construction) were given 24 hours to design a free-standing pavilion, following guidelines provided by Jun Sato.
Fifteen teams presented their designs to a jury at the end of the second day, and three finalist teams were chosen to further develop a single design, based on ideas from their various first-round schemes.
After eight weeks of development and computational analysis, the pavilion design was finalized and preparations began for fabricating and assembling it at BUILD Space in South Boston. Over J-Term, students worked together with Autodesk's experts to hone the fabrication process, refine the shaping of PETG modules, and test structural assumptions. Two researchers from Tokyo University, Ying Xu and Iris Zhang, were on hand to advise during the final days of construction.
A water jet cutter was used to create hundreds of identical PETG modules.The units were heat formed around CNC-routed positive molds in a 216-degree glass kiln to add rigidity. Once cooled, the modules were laid over the original molds to ensure that each piece is in the same curved form.
Individual units are linked via t-connections to form a continuous tension ring that wraps the entire structure. An undulating inside layer supports a smooth and continuous outside layer.
The long arms of the module are used to create a space frame that connects the inner and outer layers, so no extra pieces are needed.
There are two main openings—one which is wide and shallow and another at normal door height.
Students used advanced computational analysis to guide form-making of the pavilion.
Carly Gertler (MArch/MLA '17), Anne Schneider (MArch '18), Paul Mok (MArch '18), Danielle Kasner (MArch '18), Meric Ozgen (MArch '18), Gary Lin (MArch '18), Cari Alcombright (MArch '18), Chao Gu (MDE '18)