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dc.contributor.authorEspezua, Sandro V.P.
dc.contributor.authorReis Pereira Baptista, Carlos A.
dc.contributor.authorda Silva Antunes, Ana M.B.
dc.contributor.authorPastoukhov, Viktor
dc.contributor.authorTorres, Marcelo A. S. [UNESP]
dc.date.accessioned2018-12-11T16:55:44Z
dc.date.available2018-12-11T16:55:44Z
dc.date.issued2014-01-01
dc.identifierhttp://dx.doi.org/10.4028/www.scientific.net/AMR.891-892.1785
dc.identifier.citationAdvanced Materials Research, v. 891-892, p. 1785-1790.
dc.identifier.issn1022-6680
dc.identifier.urihttp://hdl.handle.net/11449/171532
dc.description.abstractThe study of fatigue crack growth (FCG) is aimed at residual life estimations in order to apply the damage tolerant criterion. Usual approaches are based on semi-empirical models that consider the stress intensity factor range of fracture mechanics, DK, as the governing driving force for crack propagation. An alternative approach is the use of predictive theoretical schemes arising from damage mechanics. Although they haven't achieved a reliability level high enough to be used in design, predictive models may be important in some situations like material selection. In the present work, a predictive FCG method based on the cumulative damage of volume elements along the crack path is employed. The development of the work includes considerations about the stress distribution in the cracked body and the stress-life and strain-life relations used in the computational procedure. A previously developed analytical expression for the stress distribution ahead of the crack in a finite width plate, based on the numerical analysis performed by the Finite Element Method, is used in the predictive method. The stress field is determined for both upper and lower limits of cyclic loadings. The fatigue crack growth behavior of three Al-Mg-Si alloys: AA 6005, AA 6351 and AA 6063, tempered and aged for the T6 condition, were analysed for positive and negative R-ratios. In order to check the model results, constant amplitude FCG tests with load ratios ±0.5 were carried out in M(T) specimens. The experimental results, compared to the computational simulations, show that it is possible to obtain predictions of FCG behaviour for both positive and negative load ratios. © (2014) Trans Tech Publications, Switzerland.en
dc.format.extent1785-1790
dc.language.isoeng
dc.relation.ispartofAdvanced Materials Research
dc.sourceScopus
dc.subjectAluminium alloys
dc.subjectCrack growth
dc.subjectFatigue
dc.subjectModelling
dc.titleStudy of fatigue crack growth in al-mg-si alloys using a predictive model under positive and negative load ratiosen
dc.typeTrabalho apresentado em evento
dc.contributor.institutionUniversidade de São Paulo (USP)
dc.contributor.institutionUniversidade Estadual Paulista (Unesp)
dc.description.affiliationDepartment of Materials Engineering, Escola de Engenharia de Lorena, University of São Paulo- USP, Polo Urbo-Industrial, Gleba AI-6, CEP 12602-810, Lorena/SP
dc.description.affiliationDepartment of Mathematics and Physics, University of Taubaté, UNITAU, Rua 4 de março, 432 Centro, CEP 12020-270, Taubaté/SP
dc.description.affiliationDepartment of Mechanics, Universidade Estadual Paulista, Júlio de Mesquita Filho - UNESP, Av. Ariberto Pereira da Cunha, 333-Bairro Pedregulho, CEP 12516-410, Guaratingutá/SP
dc.description.affiliationUnespDepartment of Mechanics, Universidade Estadual Paulista, Júlio de Mesquita Filho - UNESP, Av. Ariberto Pereira da Cunha, 333-Bairro Pedregulho, CEP 12516-410, Guaratingutá/SP
dc.identifier.doi10.4028/www.scientific.net/AMR.891-892.1785
dc.rights.accessRightsAcesso aberto
dc.identifier.scopus2-s2.0-84898918320
dc.relation.ispartofsjr0,121
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