Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Material Ecologies in Parametric Design Software
A renewed cultural attitude towards recycling has given designers the agency to once again consider alternative products as a growing part of mainstream construction materials. However, the 21st century use of these materials must be predicated on the idea that they be employed in elegant and efficient construction processes. We ask: How can the building and construction industry more readily employ non-toxic, industrial by-products in the creation of efficient and expressive building form? Our solution proposes that form not be tied to a preconceived surface or form-making process, but that form be responsive to material components as the primary and delimiting factor in its articulation. By designing the geometry of a form through its material constraints, we can minimize the amount of customized components while maximizing form-making possibilities and ease of construction. This paper will outline our research demonstrating how architects might expand these systemic processes to larger objects and systems using a combination of relatively simple geometric definitions along with parametric modeling software to map fixed-sized objects across complex surfaces. The primary scope of the investigation involves the geometric analysis and modeling of recycled industrial waste and the prototyping of assembly methods using digitally manufactured supports and connections. By recycling industrial by-products, which pose no health hazards, we demonstrate that sustainable design practices can effectively mitigate waste while contributing to alternative energy discussions in our local community.
Material Ecologies in Parametric Design Software
A renewed cultural attitude towards recycling has given designers the agency to once again consider alternative products as a growing part of mainstream construction materials. However, the 21st century use of these materials must be predicated on the idea that they be employed in elegant and efficient construction processes. We ask: How can the building and construction industry more readily employ non-toxic, industrial by-products in the creation of efficient and expressive building form? Our solution proposes that form not be tied to a preconceived surface or form-making process, but that form be responsive to material components as the primary and delimiting factor in its articulation. By designing the geometry of a form through its material constraints, we can minimize the amount of customized components while maximizing form-making possibilities and ease of construction. This paper will outline our research demonstrating how architects might expand these systemic processes to larger objects and systems using a combination of relatively simple geometric definitions along with parametric modeling software to map fixed-sized objects across complex surfaces. The primary scope of the investigation involves the geometric analysis and modeling of recycled industrial waste and the prototyping of assembly methods using digitally manufactured supports and connections. By recycling industrial by-products, which pose no health hazards, we demonstrate that sustainable design practices can effectively mitigate waste while contributing to alternative energy discussions in our local community.
Material Ecologies in Parametric Design Software
Beorkrem, Chris (Autor:in) / Scott, Jeffery (Autor:in) / Buzzell, Wynn (Autor:in)
International Conference on Sustainable Design and Construction (ICSDC) 2011 ; 2011 ; Kansas City, Missouri
ICSDC 2011 ; 488-496
04.01.2012
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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