In order to make this simple metal chair, designer Alexander Purcell Rodrigues consulted aluminum manufacturer Neal Feay in order to employ the most cutting edge fabrication techniques. The shape of the Cartesian Chairs was made with CAD modeling software, pushing the limits of what can be done with materials and structure.
The chair is crafted from aircraft-grade aluminum, but rather than being stark and impersonal, the chairs are full of personality and color. From a distance, the chairs look as though they've been milled from a solid block, but they are actually made from small stock aluminum, which is a key component in keeping waste levels as low as possible. The simplicity of the design also makes it possible to adapt its texture, coloring and materials to suit a range of aesthetics.
Lightweight Aluminum Chairs
These Cartesian Metal Chairs Push Structural & Material Limits
Trend Themes
1. Cutting Edge Fabrication Techniques - The use of advanced fabrication techniques in creating the lightweight aluminum chairs opens up opportunities for disruptive innovation in the manufacturing industry.
2. CAD Modeling Software - The incorporation of CAD modeling software in designing the Cartesian metal chairs presents possibilities for disruptive innovation in the design and architecture industries.
3. Sustainable Material Usage - The utilization of small stock aluminum and low waste levels in the production of the chairs highlights the potential for disruptive innovation in sustainable material sourcing and manufacturing practices.
Industry Implications
1. Manufacturing - The use of cutting edge fabrication techniques in creating lightweight aluminum chairs presents opportunities for disruptive innovation in the manufacturing industry.
2. Design - The incorporation of CAD modeling software to design Cartesian metal chairs offers potential for disruptive innovation in the design and architecture industries.
3. Sustainable Materials - The emphasis on sustainable material usage in crafting the chairs highlights opportunities for disruptive innovation in sustainable material sourcing and manufacturing practices.