World-first twisting timber tower
Friday 28 Jun 2019
Generally speaking, part of preparing timber for construction involves ridding it of moisture by drying it out in a kiln, or a machine with similar heating capabilities. This causes it to deform, but ultimately stabilizes it and makes it suitable for use. Researchers at the University of Stuttgart's Institute for Computational Design and Construction are exploring how they can interfere in this process to "program" the wood so that it transforms into desired shapes, just like you might program a robot to perform particular movements.
"By carefully understanding and digitally modelling the deformations that occur in the drying process we can arrange the wood before drying to produce specific deformations," team member and doctoral candidate Dylan Wood explains to New Atlas. "More specifically, we build flat wood bilayers plates (two layers with opposing grain directions) while the wood still has a relatively high moisture content. The plates are dried using industrial drying processes and they emerge curved. The species of wood, grain orientations, thickness ratios, and the change in moisture during the drying process are all parameters that affect the curvature."
The team says its so-called Urbach Tower is the first structure in the world to use self-shaped building-scale components. To begin, the bilayers were produced to contain 22 percent wood moisture content and were then dried to 12 percent, which Wood says is standard for this type of construction. Once dried and curved, the bilayers were stacked and glued together to lock their curvatures in place.
These warped Cross Laminated Timber (CLT) components were then transported by truck to a site at Remstal Gartenschau 2019, a garden show in the German city of Schorndorf. Here, a team of four craftsmen assembled the pieces into a striking 14-meter-tall (45-ft) tower in a single day, topping it off with a transparent roof. The tower was then finished with a protective facade of larch wood, and is also equipped with sensors that will track moisture content over the coming decade to try and keep tabs on any further warping. More >>.
Source: University of Stuttgart
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