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DCL Talk: Andrea Graziano

  • California College of the Arts 1111 8th Street San Francisco, CA, 94107 United States (map)
INFORMED MATTER talk be Andrea Graziano live via Skype Turin, Italy

INFORMED MATTER talk be Andrea Graziano live via Skype Turin, Italy

INFORMED MATTER guest Lecture by Andrea Graziano live via Skype from the FabLab in Turin, Italy.
Location: CCA Digital Craft Lab, 1111 8th Street, San Francisco, CA 94107
(The Digital Craft Lab is located directly above the CCA Library)

Andrea Graziano, architect, computational designer and digital explorer (also co-founder of Co-de-iT and the FabLab Turin - with a great Instagram feed) will discuss his recent research into 3d printing using a range of experimental materials and techniques, in the context of architecture and an expanded design practice.

All DCL talks are free and open to the public!!

The “inFORMed matter” research project focuses on the exploration of additive fabrication processes (such as n-Dimensional printing, guided growth and/or assembly), aiming to inform (i.e. to give form) as in to produce form through the morphogenetic properties and capacities of matter by embedding further information structures during the fabrication process itself by means of mechanical (robots, printers, etc.) and/or biological (organisms – even synthetically built ones) constructor agents.

Our goal is to go beyond the current state of prototyping, according to which the physical prototype should be as close as possible to a clone of its digital counterpart, thus making fabrication a purely replicational phase. Instead, by coding and embedding additional levels of information aimed at mapping and/or defining material features and behaviors as well as different deployment patterns from which physical and aesthetic properties arise, the production and digital fabrication phase becomes an integral part of the design process.

By exploring the code-matter-machine (whether mechanical or biological) interaction process we can study the potential emergent behaviors of the system as well as learn and exert a new sensibility to the computational design/fabrication process by tapping into the self-organization properties of matter as a key factor in determining characteristics of the output shape.

The research is articulated in 4 main points:

  • anticipate material behavior through digital simulation: test and apply different tool-based conditions and parameters (extrusion direction angle, speed of extrusion, variable layer thickness, etc … ) and evaluate the consequent material behavior in order to get useful feedback for the next iteration of the digital model. The aim is to understand how to embed material properties as code/information during the digital design phase, fine tuning it towards the desired effect-outcome
  • Seamless design-to-machine pipeline: shorten the information pipeline from the design process to the constructor machine. This is achieved by acting on both factors: informing directly the machines by generating the necessary code in the design tool and build the design process around the capacities of the machines involved.
  • Embed morphogenetic material properties as design factors: understand and manage such properties, behaviors and their potential morphological outcomes for different materials, from clay to biologic matter, in order to map and use them as an atlas of expressive possibilities and performances of the material.
  • Understand constraints and opportunities determined by the chosen constructor agent/machine: learn to use and manage different machines to handle the extrusion tool for additive processes and learn to evaluate and exploit the influence, constraints and given opportunities provided by different machines and movement technologies.

The final output is then the result of influence, cooperation and conflict of these aspects upon, with and onto one another. Only successfully combining computational simulation, material properties and capacities and machine constraints and opportunities we can effectively evaluate and push further the design process potential and foster design and fabrication skills and sensibilities that will form the basis of a more comprehensive awareness in regard to the relations between computation and material aspects.

The Co-de-iT teamis currently declining such research through various explorations:

. inFORMed CLAY matter

Bio-Ex Machina (formerly Bio-Logic)

P5 + experimental 3D printing

Later Event: April 17
DCL Talk: Arthur Mamou-Mani