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Flexible Formwork Research (FPR) (2006)

article⁄Flexible Formwork Research (FPR) (2006)
contributors⁄
abstract⁄FFR investigates the selforganization of plaster and elastic fabric to produce evocative visual and acoustic effects. Inspired by the work of the Spanish architect Miguel Fisac and his experiments with flexible concrete formwork in the 196070s, FFR continues this line of research by exploring aspects of pattern generation and recognition in relation to selforganized form. In line with the theme of the current exhibition, Digital Exchange, the work can be understood as a dialog between physical and digital computation. The form is a result of a negotiation between the digital manipulation of images and the physical deformations of materials under stress. Both digital and physical processes play an equal role in the final form of the plaster tiles.Reflecting on Miguel Fisac’s flexible concrete formwork, there was a desire to investigate the potential for more differentiated patterns while still using the same basic fabrication technique. This was accomplished through the use of a customdesigned script in Rhino that analyzes a given image and translates it into a field of points. These points establish areas of constraint in the elastic membrane of the mould. Through numerous physical tests, the minimum and maximum distances between constraint points was determined and these were entered into the script as limits for the point creation. If the points are too close, large wholes with very thin and weak plaster form whereas if the points are too far apart the amount of elastic deformation is so great that the weight of the plaster can cause failures to occur in the fabric mould. One of the most important aspects of the project is its resonance with the body and our natural attraction and repulsion for certain forms. Through exploring the natural selforganization of material under stress, FFR unintentionally reminds us of our own flesh. The plaster tiles resonate with our own body’s material as it sags, expands, and wrinkles in relationship with gravity, structure, and time.
keywords⁄2006archive-note-no-tags
Year 2006
Authors Kudless, Andrew; Vukcevich, I.
Issue Synthetic Landscapes
Pages 555
Library link Gregory A. Luhan, Phillip Anzalone, Mark Cabrinha & Cory Clarke, 2006. bib⁄Synthetic Landscapes. ACADIA.
Entry filename flexible-formwork-research-fpr