spin valence emily baker cranbrook metal fabrication

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This architect is cutting up materials to make them

Spin-Valence is a kirigami-based (cutting and folding) method of producing spatial structures from flat sheets of material. This method significantly decreases the time and effort required to .Her current collaborations include researchers from MIT, UVA and .

Spin

Spin-Valence allows a single sheet thickness of steel material to vastly increase its depth producing a structural space frame through the use of a kirigami strategy of cutting and folding. .

University of Arkansas Associate Professor Emily Baker is an inventor, fabricator, architect, and previous Forge Prize winner--and now, she’ll be one of three jurors for the 2025 Forge Prize! .

Inventor, fabricator, architect and educator Emily Baker laments the rarity of open-ended architectural education that Cranbrook so exemplifies. She explains the bottom-up approach to design, material fabrication and use of emerging digital .

To develop Spin-Valence, a novel structural system, Emily Baker created prototypes by making cuts and folds in sheets of paper before shifting to digitally cut steel.

By making a series of cuts and folds in a sheet of paper, Baker found she could produce two planes connected by a complex set of thin strips. Without the need for any adhesive like glue or tape, this pattern created a .Her current collaborations include researchers from MIT, UVA and Princeton University on novel structural and construction systems, Zip-Form and Spin-Valence. She holds degrees in architecture from University of Arkansas and .

Spin-Valence allows a single sheet thickness of steel material to vastly increase its depth producing a structural space frame through the use of a kirigami strategy of cutting and folding. .

Modern Steel Construction

Baker first started exploring the digital side of steel fabrication when she attended Cranbrook Academy of Art for graduate school, as the school had a CNC (computer . The Mile Zero design team’s concept uses an innovative Spin-Valence space frame system to cut, pull, and fasten uncoated weathering steel sheets into a modular system with structural depth.Emily Baker. University of Arkansas Associate Professor Emily Baker is an inventor, fabricator, architect, and previous Forge Prize winner--and now, she’ll be one of three jurors for the 2025 Forge Prize! . Zip-Form and Spin-Valence. Baker holds degrees in architecture from University of Arkansas and Cranbrook Academy of Art. She teaches . To develop Spin-Valence, a novel structural system, Emily Baker created prototypes by making cuts and folds in sheets of paper before shifting to digitally cut steel. By making a series of cuts and folds in a sheet of paper, Baker found she could produce two planes connected by a complex set of thin strips.

Courtesy of Emily Baker . These steel Spin-Valence space frame prototypes by professor Emily Baker show the potential of an integrated facade enclosure. . Baker first started exploring the digital side of steel fabrication when she attended Cranbrook Academy of Art for graduate school, as the school had a CNC (computer numerically controlled .Emily Baker is an inventor, fabricator, architect, and educator. Her work investigates choreographies of construction augmented by emerging technologies, hand capacities, and delight. Full-scale constructed experimentation informs her creative practice, research, and teaching, centering on self-structuring material systems. A sculptural Spin-Valence piece is in the permanent collection of Cranbrook Art Museum, and her collaboration with mathematician Edmund Harriss, Curvahedra, is permanently installed on the campus of University of Arkansas. Baker has focused on self-structuring material systems and experimentation in her creative practice, research, and teaching.

MIT Technology Review highlights the digital fabrication work of Emily Baker, an architect and assistant professor at the University of Arkansas' Fay Jones School of Architecture and Design.Baker began her research into lightweight and sturdy Spin-Valence structures as an architecture graduate student at the Cranbrook Academy of Art.. A concept for a shade .

Emily Baker is an inventor, fabricator, architect, and educator. Her work investigates choreographies of construction augmented by emerging technologies, hand capacities, and delight. Full-scale constructed experimentation informs her creative practice, research, and teaching, centering on self-structuring material systems.

Fabrication; Teaching; News; About; Immerse Wilson Springs Sculpture. Immerse Wilson Springs Sculpture. FABRICATION. LOCATION USA. MATERIALS Steel. This steel sculpture using the Spin-Valence system is permanently exhibited at Wilson Springs Wetland Preserve. The structures' 36 vessels hold an equivalent to 28 gallons of water—the amount the . The team's concept uses an innovative space frame system to cut, fold and fasten uncoated weathering steel sheets into a modular system with structural depth. Baker developed the Spin-Valence system while in graduate school at Cranbrook Academy of Art as a faster, more materially efficient way to produce a space frame structure. The Mile Zero team partnered with Hillsdale Fabricators Chief Structural Engineer Tony Diebold, PE. “Once Emily described the Spin-Valence concept to me, I thought it was pretty innovative and seemed like it could be a really interesting structural piece—but also . Mile Zero is a collaboration between Emily Baker, Vincent Edwards, and Edmund Harriss of the University of Arkansas; Princeton University’s Isabel Moreira de Oliveira; West Virginia University’s Eduardo Sosa; and Fayetteville, Ark.-based artist Reilly Dickens-Hoffman. Baker developed the Spin-Valence system when she was in graduate school.

Baker named her creation Spin-Valence. Structural tests later showed that an individual tile made this way, and rendered in steel, can bear more than a thousand times its own weight. — MIT Technology Review. MIT Technology Review highlights the digital fabrication work of Emily Baker, an architect and assistant professor at the University of . A video of the Spin-Valence system’s deployment and additional press photos are available here. Baker and her collaborators intend to bring the design to fruition to replace the simple bollard that currently marks the beginning of a .

Baker, one of the winners of the prize, developed a term during graduate school called “Spin-Valence.” It refers to the ability to make spatial structures with steel the way it’s done with .SPIN-VALENCE by Emily Baker. . as the design could be realized in metal or other. The jury however, given the thoroughness and potential in Cast Thicket’s development, sided on enabling the exploration, underpinning the desire to . The Spin-Valence kirigami space frame is an innovative deployable structure invented by Emily Baker, Assistant Professor at the University of Arkansas in the Fay Jones School of Architecture and . We leverage kirigami principles to eliminate the number of discretely added parts and increase fabrication efficiency. . Emily Baker; Sigrid Adriaenssens . study in spin-valence," in Fabricate .

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To develop Spin-Valence, a novel structural system, Emily Baker created prototypes by making cuts and folds in sheets of paper before shifting to digitally cut steel. By making a series of cuts and folds in a sheet of paper, Baker found she could produce two planes connected by a complex set of thin strips.

To develop Spin-Valence, a novel structural system, Emily Baker created prototypes by making cuts and folds in sheets of paper earlier than shifting to digitally lower metal. By making a collection of cuts and folds in a sheet of paper, Baker discovered she might produce two planes related by a posh set of skinny strips. It is designed to showcase the innovative Spin-Valence steel cutting method developed by Emily Baker of the . The structure will be assembled with help from the St. Louis-based Hillside Fabricators. Mile Zero. Image: AISC. Hillside's Chief Structural Engineer, Tony Diebold, said: "Once [Baker] described the whole Spin-Valence concept to me, I .

The American Institute of Steel Construction’s Forge Prize is looking for groundbreaking ideas--and Emily Baker is particularly well qualified to help find them . She also won the 2024 Forge Prize with a landmark trail head that showcases her Spin-Valence system, a revolutionary steel space frame that is both beautiful and functional .

Mile Zero trailhead design fuses art, engineering

Inspired by the Japanese art of origami and kirigami, the concept of Spin-Valence is used to transform a two-dimensional sheet of metal into a three-dimensional spatial frame. Previous iterations of this design were developed by Emily Baker of the University of Arkansas, mainly by making scaled models. The design team partnered with Tony Diebold, chief structural engineer with Hillsdale Fabricators, based in St. Louis, to further develop their idea. Mile Zero is a steel shade structure intended for Kessler Mountain Regional Park, which serves as the trailhead for “Mile Zero” of the Razorback Greenway and the region’s paved trail network.

Forge Prize

The Studio Cranbrook Spin, Barre and Yoga. For more details visit cranbrooktourism.com | 250-426-5914 . The Studio is a dedicated spin cycle studio. Find them located inside Western Financial Place. . 800 C Baker Street Cranbrook, BC V1C 1A2; 250-489-2563; Get Acquainted. Accommodations; Dining; Experiences; Contact Us; About Cranbrook;primary structural component. Emily Baker of the University of Arkansas presents her and Princeton’s Isabel M. de Oliveira’s engineered design for a pedestrian and bicycle rest stop using a Spin Valence System she developed based on a kirigami approach involving cutting and folding of steel plates to create three-dimensional structures. [AR . SPIN-VALENCE by Emily Baker. . as the design could be realized in metal or other. The jury however, given the thoroughness and potential in Cast Thicket’s development, sided on enabling the exploration, underpinning the desire to support the role of basic research in the competition brief, where an outcome is not known. . Ultimately the . Baker named her creation Spin-Valence. Structural tests later showed that an individual tile made this way, and rendered in steel, can bear more than a thousand times its own weight. — MIT Technology Review. MIT Technology Review highlights the digital fabrication work of Emily Baker, an architect and assistant professor at the University of .

Emily Baker of University of Arkansas to Judge 2025 Forge Prize

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spin valence emily baker cranbrook metal fabrication|Architecture Professor Emily Baker Receives American Institute

spin valence emily baker cranbrook metal fabrication|Architecture Professor Emily Baker Receives American Institute .

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