Element Free Galerkin (EFG) sensitivity study in structural analysis

The present study shows a parametric analysis of the meshfree method, Element Free Galerkin (EFG), on the elastic analysis of a cantilever beam. This study allows us to determine the best convergence conditions of the solutions varying characteristic. EFG is based on the construction of Moving Least...

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Tipo de recurso:
Fecha de publicación:
2019
Institución:
Universidad Tecnológica de Bolívar
Repositorio:
Repositorio Institucional UTB
Idioma:
eng
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oai:repositorio.utb.edu.co:20.500.12585/8770
Acceso en línea:
https://hdl.handle.net/20.500.12585/8770
Palabra clave:
Computational mechanics
Least squares approximations
Computational resources
Convergence conditions
Element-free Galerkin
Moving least squares approximation
Parametric -analysis
Sensitivity studies
Weighted residual method
Weighting functions
Galerkin methods
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openAccess
License
http://creativecommons.org/licenses/by-nc-nd/4.0/
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oai_identifier_str oai:repositorio.utb.edu.co:20.500.12585/8770
network_acronym_str UTB2
network_name_str Repositorio Institucional UTB
repository_id_str
dc.title.none.fl_str_mv Element Free Galerkin (EFG) sensitivity study in structural analysis
title Element Free Galerkin (EFG) sensitivity study in structural analysis
spellingShingle Element Free Galerkin (EFG) sensitivity study in structural analysis
Computational mechanics
Least squares approximations
Computational resources
Convergence conditions
Element-free Galerkin
Moving least squares approximation
Parametric -analysis
Sensitivity studies
Weighted residual method
Weighting functions
Galerkin methods
title_short Element Free Galerkin (EFG) sensitivity study in structural analysis
title_full Element Free Galerkin (EFG) sensitivity study in structural analysis
title_fullStr Element Free Galerkin (EFG) sensitivity study in structural analysis
title_full_unstemmed Element Free Galerkin (EFG) sensitivity study in structural analysis
title_sort Element Free Galerkin (EFG) sensitivity study in structural analysis
dc.contributor.editor.none.fl_str_mv Castro Suarez J.R.
dc.subject.keywords.none.fl_str_mv Computational mechanics
Least squares approximations
Computational resources
Convergence conditions
Element-free Galerkin
Moving least squares approximation
Parametric -analysis
Sensitivity studies
Weighted residual method
Weighting functions
Galerkin methods
topic Computational mechanics
Least squares approximations
Computational resources
Convergence conditions
Element-free Galerkin
Moving least squares approximation
Parametric -analysis
Sensitivity studies
Weighted residual method
Weighting functions
Galerkin methods
description The present study shows a parametric analysis of the meshfree method, Element Free Galerkin (EFG), on the elastic analysis of a cantilever beam. This study allows us to determine the best convergence conditions of the solutions varying characteristic. EFG is based on the construction of Moving Least Squares (MLS) approximations using the weighted residual method on the weak formulation, with MLS form functions as the same weighting functions. We consider the parameters of the method such as the order of the basic functions of MLS functions, the size of the support domain of the local MLS functions and the density of Gauss points against errors calculated according to the L 2 norm and processing time. It is shown that by increasing the order of basic functions it is possible to obtain more precise results, however, a larger support diameter and Gauss points higher density are required in order to stabilize the solution, considerably increasing processing times. Therefore, it is only advisable to use high-order base functions when the precision in the results is the priority and a high computational resource is available. © Published under licence by IOP Publishing Ltd.
publishDate 2019
dc.date.accessioned.none.fl_str_mv 2019-11-06T19:05:22Z
dc.date.available.none.fl_str_mv 2019-11-06T19:05:22Z
dc.date.issued.none.fl_str_mv 2019
dc.type.coarversion.fl_str_mv http://purl.org/coar/version/c_970fb48d4fbd8a85
dc.type.coar.fl_str_mv http://purl.org/coar/resource_type/c_c94f
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dc.type.hasVersion.none.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.spa.none.fl_str_mv Conferencia
status_str publishedVersion
dc.identifier.citation.none.fl_str_mv IOP Conference Series: Materials Science and Engineering; Vol. 519, Núm. 1
dc.identifier.issn.none.fl_str_mv 1757-8981
dc.identifier.uri.none.fl_str_mv https://hdl.handle.net/20.500.12585/8770
dc.identifier.doi.none.fl_str_mv 10.1088/1757-899X/519/1/012004
dc.identifier.instname.none.fl_str_mv Universidad Tecnológica de Bolívar
dc.identifier.reponame.none.fl_str_mv Repositorio UTB
identifier_str_mv IOP Conference Series: Materials Science and Engineering; Vol. 519, Núm. 1
1757-8981
10.1088/1757-899X/519/1/012004
Universidad Tecnológica de Bolívar
Repositorio UTB
url https://hdl.handle.net/20.500.12585/8770
dc.language.iso.none.fl_str_mv eng
language eng
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dc.rights.cc.none.fl_str_mv Atribución-NoComercial 4.0 Internacional
rights_invalid_str_mv http://creativecommons.org/licenses/by-nc-nd/4.0/
Atribución-NoComercial 4.0 Internacional
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dc.format.medium.none.fl_str_mv Recurso electrónico
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dc.publisher.none.fl_str_mv Institute of Physics Publishing
publisher.none.fl_str_mv Institute of Physics Publishing
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institution Universidad Tecnológica de Bolívar
dc.source.event.none.fl_str_mv Expotecnologia 2018: Research, Innovation and Development in Engineering, 31 October 2018 through 2 November 2018
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spelling Castro Suarez J.R.Martinez, T.J.AArrieta, O.E.W.2019-11-06T19:05:22Z2019-11-06T19:05:22Z2019IOP Conference Series: Materials Science and Engineering; Vol. 519, Núm. 11757-8981https://hdl.handle.net/20.500.12585/877010.1088/1757-899X/519/1/012004Universidad Tecnológica de BolívarRepositorio UTBThe present study shows a parametric analysis of the meshfree method, Element Free Galerkin (EFG), on the elastic analysis of a cantilever beam. This study allows us to determine the best convergence conditions of the solutions varying characteristic. EFG is based on the construction of Moving Least Squares (MLS) approximations using the weighted residual method on the weak formulation, with MLS form functions as the same weighting functions. We consider the parameters of the method such as the order of the basic functions of MLS functions, the size of the support domain of the local MLS functions and the density of Gauss points against errors calculated according to the L 2 norm and processing time. It is shown that by increasing the order of basic functions it is possible to obtain more precise results, however, a larger support diameter and Gauss points higher density are required in order to stabilize the solution, considerably increasing processing times. Therefore, it is only advisable to use high-order base functions when the precision in the results is the priority and a high computational resource is available. © Published under licence by IOP Publishing Ltd.Bolivar si Innova;CAMACOL Bolivar;Consejo Profesional Nacional de Ingenieria (COPNIA);Establecimiento Publico Ambiental (EPA);et al.;Renata ColombiaRecurso electrónicoapplication/pdfengInstitute of Physics Publishinghttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial 4.0 Internacionalhttp://purl.org/coar/access_right/c_abf2https://www2.scopus.com/inward/record.uri?eid=2-s2.0-85067023523&doi=10.1088%2f1757-899X%2f519%2f1%2f012004&partnerID=40&md5=101ea8603ae6128ce4995d8d4cc36de4Scopus 57209263590Scopus 57209248085Expotecnologia 2018: Research, Innovation and Development in Engineering, 31 October 2018 through 2 November 2018Element Free Galerkin (EFG) sensitivity study in structural analysisinfo:eu-repo/semantics/conferenceObjectinfo:eu-repo/semantics/publishedVersionConferenciahttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_c94fComputational mechanicsLeast squares approximationsComputational resourcesConvergence conditionsElement-free GalerkinMoving least squares approximationParametric -analysisSensitivity studiesWeighted residual methodWeighting functionsGalerkin methodsMetsis, P., Lantzounis, N., Papadrakakis, M., (2015) Computer Methods in Applied Mechanics and Engineering, 283, pp. 782-805Mhamed, M., Idir, B., World Academy of Science, Engineering and Technology (2016) International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering, 10, pp. 646-654Belytschko, T., Lu, Y.Y., Gu, L., (1994) International Journal for Numerical Methods in Engineering, 37 (2), pp. 229-256Hosseini, S., Malekan, M., Pitangueira, R.L.D.S., Silva, R.P., (2017) Latin American Journal of Solids and Structures, 14 (6), pp. 1017-1039Ramirez, S.J.F., Mesa, M.E., Branch, B.J.W., Boulanger, P., (2011) Revista Avances en Sistemas e Informática, 8Wu, C.K.C., Plesha, M.E., (2002) International Journal for Numerical Methods in Engineering, 53 (3), pp. 499-514Shivanian, E., (2015) Engineering Analysis with Boundary Elements, 50, pp. 249-257Ren, H., Pei, K., Wang, L., (2014) Applied Mathematics and Computation, 238, pp. 527-546Sun, F., Wang, J., Cheng, Y., Huang, A., (2015) Applied Numerical Mathematics, 98, pp. 79-105Dehghan, M., Mohammadi, V., (2016) Computers & Mathematics with Applications, 71 (4), pp. 892-921Dabboura, E., Sadat, H., Prax, C., (2016) Alexandria Engineering Journal, 55 (3), pp. 2783-2787Cheng, Y., Bai, F., Liu, C., Peng, M., (2016) International Journal of Computational Materials Science And, Engineering, 5 (4)Chowdhury, H.A., Wittek, A., Miller, K., Joldes, G.R., (2016) Journal of Scientific Computing, pp. 1-15Arzani, H., Kaveh, A., Taromsari, M.T., (2017) Scientia Iranica. Transaction A, Civil Engineering, 24, p. 143Ghasemi, M., Amrollahi, R., (2016) Engineering Analysis with Boundary Elements, 67, pp. 126-137Trask, N., Maxey, M., Hu, X., (2016), preprintLi, H., Mulay, S.S., (2013) Meshless Methods and Their Numerical Properties, , (CRC press)Liu, G.R., Gu, Y.T., (2005) An Introduction to Meshfree Methods and Their Programming, , (Springer Science ampBusiness Media)Mase, G., (1970) Schaum's Outline of Continuum Mechanics, , (McGraw Hill Professional)Dolbow, J., Belytschko, T., (1998) Archives of Computational Methods in Engineering, 5 (3), pp. 207-241Zhu, T., Atluri, S., (1998) Computational Mechanics, 21 (3), pp. 211-222Augarde, C.E., Deeks, A.J., (2008) Finite Elements in Analysis and Design, 44 (9-10), pp. 595-601Timoshenko, S., Goodier, J., (1970) Theory of Elasticity, , (New York: McGraw-Hill)Yao, Y., Bhat, R.B.P.M., (2005) NaCoMM, pp. 249-254Luis, J., Ochoa, R., (1998) Revista Universidad EAFIT, 34, pp. 107-118http://purl.org/coar/resource_type/c_c94fORIGINALDOI10_10881757-899X5191012004.pdfapplication/pdf2170937https://repositorio.utb.edu.co/bitstream/20.500.12585/8770/1/DOI10_10881757-899X5191012004.pdf32b6fc05732f3d4d2219fe5a045e0107MD51TEXTDOI10_10881757-899X5191012004.pdf.txtDOI10_10881757-899X5191012004.pdf.txtExtracted texttext/plain20129https://repositorio.utb.edu.co/bitstream/20.500.12585/8770/4/DOI10_10881757-899X5191012004.pdf.txt5f34b346fe162903e9a6480ba15bb619MD54THUMBNAILDOI10_10881757-899X5191012004.pdf.jpgDOI10_10881757-899X5191012004.pdf.jpgGenerated Thumbnailimage/jpeg28311https://repositorio.utb.edu.co/bitstream/20.500.12585/8770/5/DOI10_10881757-899X5191012004.pdf.jpg64fc5ebda7a15112c2bd3a4579ff275cMD5520.500.12585/8770oai:repositorio.utb.edu.co:20.500.12585/87702020-10-23 04:49:46.605Repositorio Institucional UTBrepositorioutb@utb.edu.co

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