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RRosenman
Nov 20, 2007

Twisting Towers

4 towers with twist

Early massing studies for a tower of multiple twisting strands. In addition to rotating about the central core, the profile of each strand also varies over the height of the tower to produce a visually striking effect.

twisting tower

4 Towers viewed from the top

When each strand is color coded and the model seen from an aerial top view, the geometries of the twists become more apparent. The leftmost tower has no twist in order to provide a baseline for this study. From left to right the remaining towers have respective twists of 60, 75, and 90 degrees.

top and bottom floorplate of one strand

The profile of each strand varies from a perfect hexagon at the bottom to an equilateral triangle at the top. The triangle’s corners are cut by oblique transversing edges to “remove” equilateral triangles and create a constructible edge.

Full floorplates

When arranged around an equilateral triangle, the strands touch at three corners, defining a continuous profile and creating natural points to exploit in structural strategies. Since previous structural studies were undertaken with systems of spirals in sets of 3, there is quite a bit of useful code we can repurpose.

top view of a single strand wireframe

This perspective wireframe view of a single strand from above shows the subtle geometric transformation at play in the model. Each strand has 6 sections of outer wall at each floor, each section of outer wall is defined by 4 points. In the initial cladding strategy, each section is triangulated to produce 2 developable triangular surfaces. This triangulation becomes more apparent when the number of strand revolutions is increased considerably.

extreme twisting

In the above example the strands undergo 3 full revolutions, essentially a 1080 degree twist. The tapering of the profile still follows the same rule as before.

extreme twist exposed

Next steps include:

  • Developing a strategy for the massing of the core and to leverage our earlier spiral studies to tie its structure to the facade.
  • Designing a more robust cladding system that can vary over the height of the building and utilize geometric tiling patterns in 3-D.
  • Running preliminary environmental analysis on our site and the model standing on the site at various orientations to begin understanding how it should sit on the site to maximize visibility and minimize unwanted solar gain.

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    One Comment, Comment or Ping

    1. AAqtash

      Ron / Nicole: Your next steps sounds exciting. Look forward to seeing what you come up with. Very exciting! I appreciate the energy and respect you have for your work. Your goals are on point.

      Nov 20th, 2007

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    Recent.Comments

    • RSarrach: The model looks spiffy! One suggestion that I would give you is that you should have a range of intensities...
    • AAqtash: Ron / Nicole: Your next steps sounds exciting. Look forward to seeing what you come up with. Very exciting!...
    • AAqtash: Eric, we should format Liquid Sky into a featured article; there is a great deal of good content.
    • AAqtash: Ron / Nicole: Great first pass! I appreciate the rigor of keeping the structural module in-tuned with the...
    • RSarrach: Great work, those are some phenomenal shots of the interior. Please make sure to leave enough time to...

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