Construction Matters examines the way that architects understand and respond to technological innovation through the creation of new types of spaces, and the materials through which an architectural idea finds its physical realization. Understanding the properties of different materials is indispensable for the creation of architecture that is original, powerful, and meaningful.
Matters examines specific technologies that experienced major transformations in the last century, or were newly invented: a new material, jointing technique, or fabrication procedure for example. The architectural application of this invention is then analyzed with building case studies that are selected based on an obvious formal relationship between the building’s form and the new type of construction that it incorporates–ranging from prewar designs in the United
Construction Matters develops a way of thinking about architecture in relation to technology that transcends a particular building method or design task. The architect and educator Georg Windeck conducted independent research that ranges from scientific advancements to philosophical contemplations. The multi-facetted discussion that emerges from this work is developed in close collaboration with artist and journalist Lisa Larson Walker, with mathematician and architect Will Shapiro, and with artist and architect Sean Gaffney. If we are to rescue the physical substance of architecture
Georg Windeck is an architect, educator, and researcher. He is licensed in Berlin and New York, and his broad range of activities also includes urban planning and historic preservation. He received his Diplom-Ingenieur in Architecture with distinction at the Technische Universitӓt Berlin and also studied sculpture at the Hochschule der Künste. Windeck is an Associate Professor at The Cooper Union, and also teaches at the School of Visual Arts, New York.
Will Shapiro received his Bachelor of Architecture from The Cooper Union. Recently he developed modeling software that allows users to understand how the structures they design react to forces in real time.