SKIN: Soft Kinetic Network

 

Date: 2012

Client: n/a

Primary Investigator(s): Vera Parlac

Collaborators: n/a

Project Budget: withheld

Research Assistants/ Project Team (Role): Richard Cotter, Todd Freeborn, Adam Onulov

Publications: “Surface Dynamics: From Dynamic Surface to Agile Spaces ” in Proceedings of the 2013 ASCAAD Conference: DIGITAL CRAFTING Virtualizing Architecture and Delivering Real Built Environment, Jeddah, March 2014
Agile Spaces/ Iconic/ SKiN“, Responsive Architecture Research Team V. Parlac and B. Kolarevic, in Facing the Future, Exhibition Book, 2nd International Scientific Conference and Exhibition, Gallery of Science and Technology, Belgrade, Serbia, 2014
Surface Change: Information, Matter and Environment ” in Proceedings of the 2013 CAADRIA International Conference of Computer-Aided Architecture Design Research in Asia: OPEN SYSTEMS, Singapore, May 15-18, 2013
Surface Change” in Proceedings of the 2012 ACSA International Conference: CHANGE, Architecture, Education, Practice, Barcelona, Spain, June 20-21, 2012

 

 

 

 

 

 

 

Sponsors: University of Calgary Seed Grant

 

 

 

 


Project Description: The SKiN project consists of small-scale prototypes of an adaptive kinetic surface capable of spatial modulation and response to environmental stimuli. The Soft Kinetic Network (SKiN) surface is organized around the network (Soft Kinetic Grid) of embedded “muscle” wires that change shape under electric current. The network of wires provides for a range of motions and facilitates surface transformations through soft and muscle-like movement. The material system developed around the wire network is variable and changes its thickness, stiffness, or permeability within its continuous composite structure. The variability in the material system enables it to (a) behave differently within surface regions; (b) vary the speed and degree of movement; (c) vary surface transparency; and (d) provide other levels of performance such as capture of heat produced by the muscle wire and distribution of heat within the surface regions.

 

 

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