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Advanced architectural descriptors in foams: novel 3D computational methods

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Abstract
This work presents 3D computational strategies aimed at providing foam de-structuration of the basic components of a cellular material (struts and cell walls) offering the possibility of analysing separately the structural elements that play an important role in the physical properties of thee materials. Two different methodologies have been used depending on the topological similarities existing between the struts and cell walls: 3D erosion-dilation procedure (thick struts) and solid classification algorithm (thin struts). In a second step, analysis of cell walls is performed in order to show the advantages of analysing separately the two foams components. Particularly, cell wall thickness distribution reveals differences that could not be found prior to the de-structuration.
Keywords
cellular structure, 3D analysis, porous materials, image processing, binary operations

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Citation

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Chicago
Pado-Alonso, Samuel, Eusebio Solórzano, J Vicente, Loes Brabant, Luc Van Hoorebeke, and MA Rodríguez-Pérez. 2013. “Advanced Architectural Descriptors in Foams: Novel 3D Computational Methods.” In Tomography of Materials and Structures : Book of Abstracts : Talks, ed. Veerle Cnudde, 285–288. Ghent, Belgium.
APA
Pado-Alonso, S., Solórzano, E., Vicente, J., Brabant, L., Van Hoorebeke, L., & Rodríguez-Pérez, M. (2013). Advanced architectural descriptors in foams: novel 3D computational methods. In V. Cnudde (Ed.), Tomography of materials and structures : book of abstracts : talks (pp. 285–288). Presented at the 1st International conference on Tomography of Materials and Structures (ICTMS 2013), Ghent, Belgium.
Vancouver
1.
Pado-Alonso S, Solórzano E, Vicente J, Brabant L, Van Hoorebeke L, Rodríguez-Pérez M. Advanced architectural descriptors in foams: novel 3D computational methods. In: Cnudde V, editor. Tomography of materials and structures : book of abstracts : talks. Ghent, Belgium; 2013. p. 285–8.
MLA
Pado-Alonso, Samuel, Eusebio Solórzano, J Vicente, et al. “Advanced Architectural Descriptors in Foams: Novel 3D Computational Methods.” Tomography of Materials and Structures : Book of Abstracts : Talks. Ed. Veerle Cnudde. Ghent, Belgium, 2013. 285–288. Print.
@inproceedings{4178466,
  abstract     = {This work presents 3D computational strategies aimed at providing foam de-structuration of the basic components of a cellular material (struts and cell walls) offering the possibility of analysing separately the structural elements that play an important role in the physical properties of thee materials. Two different methodologies have been used depending on the topological similarities existing between the struts and cell walls: 3D erosion-dilation procedure (thick struts) and solid classification algorithm (thin struts). In a second step, analysis of cell walls is performed in order to show the advantages of analysing separately the two foams components. Particularly, cell wall thickness distribution reveals differences that could not be found prior to the de-structuration.},
  author       = {Pado-Alonso, Samuel and Sol{\'o}rzano, Eusebio and Vicente, J and Brabant, Loes and Van Hoorebeke, Luc and Rodr{\'i}guez-P{\'e}rez, MA},
  booktitle    = {Tomography of materials and structures : book of abstracts : talks},
  editor       = {Cnudde, Veerle},
  isbn         = {9789461971302},
  keyword      = {cellular structure,3D analysis,porous materials,image processing,binary operations},
  language     = {eng},
  location     = {Ghent, Belgium},
  pages        = {285--288},
  title        = {Advanced architectural descriptors in foams: novel 3D computational methods},
  year         = {2013},
}