Computação material: um estudo sobre a atualização geométrica de elementos vazados na arquitetura

Computação material: um estudo sobre a atualização geométrica de elementos vazados na arquitetura

SILVA, Robson Canuto da; SANTANA NETO, Ernesto José de

Full Article:

This paper deals with geometric update strategies of cobogós, aiming to expand its energy efficiency based on material computation, a design approach that seeks to achieve greater architectural performance through the investigation of material properties, comprising four aspects that structure the paper: materiality, material structure, material performance and materialisation. Analysis in ceramic, the most common material in the manufacturing of cobogós, showed voronoi microstructure geometry in the material. Incorporating this logic to the development of a new geometry of cobogó results a slight increase of its thermal performance comparing with commercial cobogós.

This paper deals with geometric update strategies of cobogós, aiming to expand its energy efficiency based on material computation, a design approach that seeks to achieve greater architectural performance through the investigation of material properties, comprising four aspects that structure the paper: materiality, material structure, material performance and materialisation. Analysis in ceramic, the most common material in the manufacturing of cobogós, showed voronoi microstructure geometry in the material. Incorporating this logic to the development of a new geometry of cobogó results a slight increase of its thermal performance comparing with commercial cobogós.

Palavras-chave:

DOI: 10.5151/despro-sigradi2016-479

Referências bibliográficas

• [1] ABCERAM (Associação Brasileira de Cerâmica) Informações Técnicas – Definição e Classificação Retrieved from http://www.abceram.org.br/site/index. php?area=4
• [2] Ahlquist, S.; Menges, A. (2011). Computational Design Thinking. Londres : Architectural Design.
• [3] APAC (Agência Pernambucana de Águas e Climas) Meteorologia – Estações do ano Retrieved from http://www.apac.pe.gov.br/meteorologia/estacoes-do-ano.php?estacao=verao
• [4] Bittencourt, L.; Cândido, C. (2010). Ventilação Natural em Edificações. Rio de Janeiro : Convênio ECV033/04 realizado entre ELETROBRAS PROCEL e UFAL.
• [5] Frota, A. B.; Schiffer, S. R. (2001). Manual de Conforto Térmico.São Paulo : Studio Nobel
• [6] Hensel, M. (2008). Performance-Oriented Design: Precursors and potentials. In Hensel, M.; Menges, A. (Eds.), Versatility and vicissitude (pp. 48-53). Londres : Architectural Design.
• [7] Holanda, A. (1976). Roteiro para Construir no Nordeste. Recife : UFPE - MDU.
• [8] Menges, A. (2012). Material Computation: Higher integration in morphogenetic design. Londres : Architectural Design.
• [9] Menges, A. (2014). Rethinking Materiality Through Computation in Architecture. Palestra realizada na Associação de Arquitetos de Estocolmo. Retrieved from https://www.youtube.com/watch?v=PbgArau_4vI
• [10] Oxman, N. (2012). Material Computation. In Sheil, B. Manufacturing the Bespoke: Making and Prototyping Architecture (pp. 256-265). Londres : Architectural Design
• [11] Tran, Q.T.; et al. (2009). Reverse k Nearest Neighbor Search on Spatial Networks. In Haumerlain, A.; et al. (Eds.), Transactions on Large-Scale Data and Knowledge Centered Systems (pp. 353-372). Dordrecht : Springer Science and Business Media.
• [12] Vieira, A.; et al. (2012). Cobogó de Pernambuco. Recife : Luminar.
• [13] Whitaker, S. (1969, December 69). Advances in theory of fluid motion in porous media. Industrial & Engineering Chemistry, 61(12), 14-28.
• [14] W.G., M. (2006). Caracterização Microestrutural da Argila Expandida para Aplicação como Agregado em Concreto Estrutural Leve. Anais do 48º Congresso Brasileiro de Cerâmica, 193-199

Como citar:

SILVA, Robson Canuto da ; Ernesto José de Santana Neto; "Computação material: um estudo sobre a atualização geométrica de elementos vazados na arquitetura", p-42-49. In: <strong>XX Congreso de la Sociedad Iberoamericana de Gráfica Digital [=Blucher Design Proceedings, v.3 n.1]</strong>. São Paulo: Blucher, 2016.
ISSN 23186968, DOI 10.5151/despro-sigradi2016-479