Voxel based stochastic modeling of complex materials

In the present study an object oriented stochastic approach is proposed for the construction of synthetic, computational models of complex materials. The conventional approach to model and study materials mechanics will be outlined, indicating its limitations to deal with complex heterogeneous mater...

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Autores:: Balaguera, M. I.
Lis Gutierrez, Jenny Paola
Gaitan, Mercedes
Viloria Silva, Amelec Jesus
Robayo Acuña, Paula Vivana
Laverde Rojas, Henry

Tipo de recurso:: Article of journal

Fecha de publicación:: 2017

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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dc.title.eng.fl_str_mv	Voxel based stochastic modeling of complex materials
title	Voxel based stochastic modeling of complex materials
spellingShingle	Voxel based stochastic modeling of complex materials Complex materials Computational models Continuum mechanics Multiphysics materials modeling and simulation system Stochastic approach
title_short	Voxel based stochastic modeling of complex materials
title_full	Voxel based stochastic modeling of complex materials
title_fullStr	Voxel based stochastic modeling of complex materials
title_full_unstemmed	Voxel based stochastic modeling of complex materials
title_sort	Voxel based stochastic modeling of complex materials
dc.creator.fl_str_mv	Balaguera, M. I. Lis Gutierrez, Jenny Paola Gaitan, Mercedes Viloria Silva, Amelec Jesus Robayo Acuña, Paula Vivana Laverde Rojas, Henry
dc.contributor.author.spa.fl_str_mv	Balaguera, M. I. Lis Gutierrez, Jenny Paola Gaitan, Mercedes Viloria Silva, Amelec Jesus Robayo Acuña, Paula Vivana Laverde Rojas, Henry
dc.subject.eng.fl_str_mv	Complex materials Computational models Continuum mechanics Multiphysics materials modeling and simulation system Stochastic approach
topic	Complex materials Computational models Continuum mechanics Multiphysics materials modeling and simulation system Stochastic approach
description	In the present study an object oriented stochastic approach is proposed for the construction of synthetic, computational models of complex materials. The conventional approach to model and study materials mechanics will be outlined, indicating its limitations to deal with complex heterogeneous materials. The proposed object oriented integrative modeling will be explained emphasizing its advantages compared to continuum mechanics when dealing with complex materials. Finally, the stochastic assembly of complex materials synthetic samples is described and the architecture of the 3M2S (multiphysics materials modeling and simulation system) is shown, indicating further work based on 3M2s.
publishDate	2017
dc.date.issued.none.fl_str_mv	2017
dc.date.accessioned.none.fl_str_mv	2018-11-27T14:52:59Z
dc.date.available.none.fl_str_mv	2018-11-27T14:52:59Z
dc.type.spa.fl_str_mv	Artículo de revista
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identifier_str_mv	1816949X Corporación Universidad de la Costa REDICUC - Repositorio CUC
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dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	1. Ulrich G. Research activities in smart materials and structures and expectations to future developments. Journal of Theoretical and Applied Mechanics. 2002; 3(40): p. 549-574. 2. Nicolis G, Prigogine I. Exploreing Complexity New York: W. H. Freeman and Company; 1989. 3. Cao W, Cudney H, Waser R. Smart materials and structures. Proceedings of the National Academy of Siences USA. 1999; 96: p. 8330-8331. 4. Chen kS, Feng XA. Computer-aided design method for the components made of heterogeneous materials. Computer Aided Design. 2003; 35: p. 453-466. 5. Wang W, Kolditz O. Object-oriented finite element analysis of thermo-hydro-mechanical (THM) problems in porous media. International Journal For Numerical Methods In Engineering. 2007; 69(1): p. 162-201. 6. Booch G, Maksimchuk R, Engle M, Young B, Conallen J, Houston K. Object-Oriented Analysis and Design with Applications Boston MA USA: Addison Wesley; 2007. 7. Mishnaevsky Jr L. Automatic voxel-based generation of 3D microstructural FE models and its application to the damage analysis of composites. Materials Science and Engineering A. 2005; 407: p. 11-23. 8. Fung YC. A First Course In Continuum Mechanics Englewood Cliffs, NJ USA: Prentice Hall; 1969. 9. Alhir SS. Guide to Applying the UML Berlin: Springer Verlag; 2002. 10. Gabbert U, Nestorovic´ T, Wuchatsch. Methods and possibilities of a virtual design for actively controlled smart systems. Computers and Structures. 2008; 86: p. 240-250.
dc.rights.spa.fl_str_mv	Atribución – No comercial – Compartir igual
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rights_invalid_str_mv	Atribución – No comercial – Compartir igual http://purl.org/coar/access_right/c_abf2
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dc.publisher.spa.fl_str_mv	Journal of Engineering and Applied Sciences
institution	Corporación Universidad de la Costa
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spelling	Balaguera, M. I.Lis Gutierrez, Jenny PaolaGaitan, MercedesViloria Silva, Amelec JesusRobayo Acuña, Paula VivanaLaverde Rojas, Henry2018-11-27T14:52:59Z2018-11-27T14:52:59Z20171816949Xhttps://hdl.handle.net/11323/1942Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/In the present study an object oriented stochastic approach is proposed for the construction of synthetic, computational models of complex materials. The conventional approach to model and study materials mechanics will be outlined, indicating its limitations to deal with complex heterogeneous materials. The proposed object oriented integrative modeling will be explained emphasizing its advantages compared to continuum mechanics when dealing with complex materials. Finally, the stochastic assembly of complex materials synthetic samples is described and the architecture of the 3M2S (multiphysics materials modeling and simulation system) is shown, indicating further work based on 3M2s.Balaguera, M. I.-3e5504fc-960c-4c50-8507-febbe0538f3b-0Lis Gutierrez, Jenny Paola-fb3c67c5-59fb-4b76-93e9-9d0a538dd4f0-0Gaitan, Mercedes-8b432aaf-b7fb-47b1-b4c8-9aa272a542fd-0Viloria Silva, Amelec Jesus-0000-0003-2673-6350-600Robayo Acuña, Paula Vivana-b83aa054-844e-4a8d-969f-1938a1853a46-0Laverde Rojas, Henry-a63bb106-78e8-453b-bb8d-d28d758dad56-0engJournal of Engineering and Applied SciencesAtribución – No comercial – Compartir igualinfo:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Complex materialsComputational modelsContinuum mechanicsMultiphysics materials modeling and simulation systemStochastic approachVoxel based stochastic modeling of complex materialsArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersion1. Ulrich G. Research activities in smart materials and structures and expectations to future developments. Journal of Theoretical and Applied Mechanics. 2002; 3(40): p. 549-574. 2. Nicolis G, Prigogine I. Exploreing Complexity New York: W. H. Freeman and Company; 1989. 3. Cao W, Cudney H, Waser R. Smart materials and structures. Proceedings of the National Academy of Siences USA. 1999; 96: p. 8330-8331. 4. Chen kS, Feng XA. Computer-aided design method for the components made of heterogeneous materials. Computer Aided Design. 2003; 35: p. 453-466. 5. Wang W, Kolditz O. Object-oriented finite element analysis of thermo-hydro-mechanical (THM) problems in porous media. International Journal For Numerical Methods In Engineering. 2007; 69(1): p. 162-201. 6. Booch G, Maksimchuk R, Engle M, Young B, Conallen J, Houston K. Object-Oriented Analysis and Design with Applications Boston MA USA: Addison Wesley; 2007. 7. Mishnaevsky Jr L. Automatic voxel-based generation of 3D microstructural FE models and its application to the damage analysis of composites. Materials Science and Engineering A. 2005; 407: p. 11-23. 8. Fung YC. A First Course In Continuum Mechanics Englewood Cliffs, NJ USA: Prentice Hall; 1969. 9. Alhir SS. Guide to Applying the UML Berlin: Springer Verlag; 2002. 10. Gabbert U, Nestorovic´ T, Wuchatsch. Methods and possibilities of a virtual design for actively controlled smart systems. Computers and Structures. 2008; 86: p. 240-250.PublicationORIGINALVoxel based stochastic modeling of complex materials.pdfVoxel based stochastic modeling of complex materials.pdfapplication/pdf665630https://repositorio.cuc.edu.co/bitstreams/ad624f3f-dad8-4b34-a9b7-e5ace04ade81/download2f60988440cf0777d5d8a0ffa382e06aMD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://repositorio.cuc.edu.co/bitstreams/3e73054a-35dc-4d47-b7ac-e6684e341273/download8a4605be74aa9ea9d79846c1fba20a33MD52THUMBNAILVoxel based stochastic modeling of complex materials.pdf.jpgVoxel based stochastic modeling of complex materials.pdf.jpgimage/jpeg71116https://repositorio.cuc.edu.co/bitstreams/a46bb32f-b2d1-4b41-a9b0-8cb341205497/downloadde97e31cce8f6efe6f9817ba811b5e75MD54TEXTVoxel based stochastic modeling of complex materials.pdf.txtVoxel based stochastic modeling of complex materials.pdf.txttext/plain16597https://repositorio.cuc.edu.co/bitstreams/902ce21e-13a0-4182-93bd-79177984035a/download449f650a8f526afb2122bf022c630bd5MD5511323/1942oai:repositorio.cuc.edu.co:11323/19422024-09-17 14:13:19.802open.accesshttps://repositorio.cuc.edu.coRepositorio de la Universidad de la Costa CUCrepdigital@cuc.edu.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

Voxel based stochastic modeling of complex materials

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