MakeLab’s role as LTU’s digital fabrication lab found the perfect challenge in the design of a new dining chair for Frank Lloyd Wright’s Affleck House. Designed by Azubike Ononye and Nicholas Cataldo the chair needed to respond to the unique setting of the house. The Affleck House, being one of Wright’s “Usonian homes” which were designed specifically for middle income families, seemed to be the perfect source of inspiration for the chair. One of the major factors that drove the design was the issue of maintaining a low cost while producing something worthy enough of being in the Affleck House. Aside from cost issue, another factor that governed the design was the idea of mobility, which required the design to have a stack-able property.
Based on the requirements stated above, we decided that the chair had to be cut from one sheet of 4’ X 8’ birch plywood and started out small scale on the laser cutter, incorporating the twisting, stretching, and bending properties of plywood explored by Nicholas Cataldo and Kyle Gonzalez in the fall semester of 2011. This gave us the opportunity to explore other potentials and gave us a sense of the structural framework for the chair. It was amazing to see Professor Stevens turn into a mathematics tutor as he was converting model dimensions to actual dimension. That gave us something to laugh about when we discovered that our initial model of the chair had to be tweaked because in reality we couldn’t fit two cuts on one piece of 4’ X 8’ birch plywood, which would have a huge implication on the cost. We also discovered the surface area of the wood cutout was a lot and would have a negative impact on the stack-able character of the chair because of its dead weight. We adjusted our model by removing the arm rests which were initially part of the design, and introduced a slant cut to the legs of the chair to remove some of the dead weight. Another challenge we encountered was double milling the wood piece on the CNC machine. We had to improvise by creating an jig, which was screwed to the machine to avoid a shift in the X and Y axis when the piece was flipped. Then we were left with the metal work which involved cutting the steel tubing, bending it with a tube bender, inserting the stainless steel dowels- at the joints of the chair to ensure firm connection, and finally welding these joints.
From a business perspective one of the great features of the chair is its “value flexibility”. I call it value flexibility because the materiality of the chair can be changed to meet different value targets without changing the design itself. For example, the birch plywood used for the chair could be exchanged for a higher quality piece of plywood, thus increasing the value. So ideally the same design can fit different calibers of clients from lower to middle to the upper class.
In addition, the dining chair design provides us with the opportunity to explore TIG welding and metal works. Thus, the material syllabus of the makeLab was expanded. The makeLab not only utilizes wood, plastic, resins, and concrete but also metal and its related fields.