UmArts — Research Centre for Architecture, Design and the Arts

This group brings together researchers exploring possibilities and challenges in the intersection of traditional sloyd/craft and digital design, between hi-tech and low-tech making. Previous example projects include combining traditional and cultural woodcraft with digital laser cutting, and more technical explorations from architectural perspectives on making with recycled and living materials. Another focus is on contemporary subcultures of contemporary makers in relation to traditional crafts, framed as modes of sustainable, post-industrial design practice. The working group also brings attention to tinkering as an investigative practice within the creative fields, ranging from hacking, coding, circuit-bending, and bricolage.

In a Nordic context sloyd traditions embody a specific form of cultural heritage encompassing particular materials and techniques. Research in this working group spans all creative disciplines and works together to publish research articles, conduct hands-on workshops, and exhibitions. Examples include post-industrial approaches to high tech design, new sustainable forms and materials for architecture, traditional woodworking supported by digital fabrication tools.

The Post Industrial Making Group is chaired by Ylva Fernaeus, Associate Professor at Umeå Institute of Design, and Deputy Director of UmArts.

Healing Wounds: Making living facades with bio-based waste and natural fibers

The Healing the Wounds research project aims to make better use of the large amounts of waste from the forestry and packaging industries. The project explores the use of bio-based cellular waste such as cardboard and paper to create self-supporting structures and the use of natural fibers such as threads and growing plants as connectors. The project seeks to answer to the following questions: Can plant roots serve as a long-term link to stabilize and bind natural cellular waste to make building envelopes? Which geometry for a structure of waste material is needed to make a bonding between the instable structure and and the plant filling possible? What geometry for a waste structure is needed to allow a bond between the unstable structure and the plant filling?

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