“Primitive Hut”亭子丨美国纽约

OMG! designs "Primitive Hut," a pavilion that will decompose over time

Primitive Hut. Photo courtesy of OMG!

In his

Essai sur l’Architecture,

the 18th-century French architecture theorist Marc-Antoine Laugier developed the concept of the

Primitive Hut

. Exploring the origins of architecture, Laugier described the primitive man as constructing a shelter to protect himself from nature. The iconic frontispiece of the second edition, by the artist, Charles-Dominique-Joseph Eisen, made the book's argument clear. It shows an allegorical figure, representing architecture, pointing to the primitive hut, a new structural clarity found in nature.

Essai sur l'Architecture, frontispiece by Charles-Dominique-Joseph Eisen. Image via Wikipedia.

Drawing by OMG!, inspired by Charles-Dominique Joseph Eisen's frontispiece.

Martin Miller from

Antistatics

and Caroline O’Donnell from

CODA

—

previously featured in our Small Studio Snapshot series

—partnered with one another as

OMG!

to create their own

Primitive Hut.

Inspired by Marc-Antoine Laugier’s work, the duo created a pavilion made of decomposing materials that will open on October 21st at the

OMI

International Arts Center in Ghent, NY.

Image by Brian Havener

Drawing by OMG!

According to the architects, the project is meant to question architecture's relationship with time. Through material explorations of growth and decay, the structure actively transforms as it decomposes over the course of its lifespan.

Drawing by OMG!

Drawing by OMG!

The structure is constituted of two parts—a structural lattice made of interlocking plywood pieces and a decomposing lattice made from sawdust, bio-resin, and hemp, as well as an infill of manure cylinders. The structural lattice acts a growth frame for four red maple saplings while the decomposing material will serve to feed the trees, meant to grow as the structure decays.

Picture by OMG!

Photo by OMG!

The design of the structure is based on digital cellular solids, a system developed by Kenneth Cheung at NASA that optimizes the strength to weight ratio. Acting as a macro-scale foam, the structural lattice is able to behave similarly to more massive solid materials while using less materials.

For assembly, 5,000 individual pieces were produced with a CNC machine and later combined into 2,000 'cells.' Building on traditional notched wood joinery, all the pieces were pre-cut and designed to interlock with one another without the need for permanent fixed joints requiring glue or mechanical fasteners.

Picture by OMG!

Picture by OMG!

The work was commissioned from OMI International Sculpture Park and will be in place for two years, after which it will remain only as the trees it gave life to.