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dc.contributor.authorZhang, B.
dc.contributor.authorMynors, Diane J.
dc.contributor.authorMugarra, A.
dc.contributor.authorOstolaza, K.
dc.date.accessioned2008-06-06T15:31:03Z
dc.date.available2008-06-06T15:31:03Z
dc.date.issued2004
dc.identifier.citationJournal of Materials Processing Technology, 153-154: 694-698
dc.identifier.issn09240136
dc.identifier.doi10.1016/j.jmatprotec.2004.04.138
dc.identifier.urihttp://hdl.handle.net/2436/29643
dc.descriptionThis paper, with another by the authors in Materials Science Forum, 2004 (Vol 447/448, pp 171-176), describes the first constitutive equation for superplastic forming grade INCONEL 718. The equation is essential for the simulation of the superplastic forming of INCONEL 718 aerospace components and is now being utilised, with 98% accuracy, by: Industria de Turbo Propulsores, S.A. ITP Industria de Turbo Propulsores, S.A. Edificio nº 300 – Parque Tecnológico 48170 ZAMUDIO (Bizkaia - SPAIN) Pablo Arriola Garcia pablo.arriola@itp.es Tel: +34 94 489 21 00
dc.description.abstractModelling the superplastic process using finite element analysis can enable optimum process parameters to be determined and lead to a better understanding of the process. Constitutive equations, which accurately represent a material’s behaviour, are very important in the development of representative process models. The development of a set of constitutive equations for superplastic grade Inconel 718 alloy based around a hyperbolic sine relation is described in this paper. The hyperbolic sine relation with strain dependant parameters is shown to represent the relationship between stress, strain and strain rate over a wide strain range. The valid strain range is sufficient to cover both strain hardening and flow softening behaviour.
dc.language.isoen
dc.publisherAmsterdam: Elsevier
dc.subjectModelling
dc.subjectEngineering technology
dc.subjectFinite element analysis
dc.subjectStrain rate
dc.subjectSuperplastic forming
dc.subjectINCONEL 718
dc.subjectAerospace applications
dc.titleRepresenting the Superplasticity of Inconel 718
dc.typeJournal article
dc.identifier.journalJournal of Materials Processing Technology
html.description.abstractModelling the superplastic process using finite element analysis can enable optimum process parameters to be determined and lead to a better understanding of the process. Constitutive equations, which accurately represent a material’s behaviour, are very important in the development of representative process models. The development of a set of constitutive equations for superplastic grade Inconel 718 alloy based around a hyperbolic sine relation is described in this paper. The hyperbolic sine relation with strain dependant parameters is shown to represent the relationship between stress, strain and strain rate over a wide strain range. The valid strain range is sufficient to cover both strain hardening and flow softening behaviour.


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