Artículo
On the Use of Maximum Force Criteria to Predict Localised Necking in Metal Sheets under Stretch-Bending
Autor/es | Morales-Palma, Domingo
Martínez Donaire, Andrés Jesús Vallellano Martín, Carpóforo |
Departamento | Universidad de Sevilla. Departamento de Ingeniería Mecánica y de Fabricación |
Fecha de publicación | 2017-11-02 |
Fecha de depósito | 2018-02-21 |
Publicado en |
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Resumen | The maximum force criteria and their derivatives, the Swift and Hill criteria, have been
extensively used in the past to study sheet formability. Many extensions or modifications of these
criteria have been proposed to ... The maximum force criteria and their derivatives, the Swift and Hill criteria, have been extensively used in the past to study sheet formability. Many extensions or modifications of these criteria have been proposed to improve necking predictions under only stretching conditions. This work analyses the maximum force principle under stretch-bending conditions and develops two different approaches to predict necking. The first is a generalisation of classical maximum force criteria to stretch-bending processes. The second approach is an extension of a previous work of the authors based on critical distance concepts, suggesting that necking of the sheet is controlled by the damage of a critical material volume located at the inner side of the sheet. An analytical deformation model is proposed to characterise the stretch-bending process under plane-strain conditions. Different parameters are considered, such as the thickness reduction, the gradient of variables through the sheet thickness, the thickness stress and the anisotropy of the material. The proposed necking models have been successfully applied to predict the failure in different materials, such as steel, brass and aluminium |
Agencias financiadoras | Gobierno de España |
Identificador del proyecto | DPI2015-64047-R |
Cita | Morales Palma, D., Martínez Donaire, A.J. y Vallellano Martín, C. (2017). On the Use of Maximum Force Criteria to Predict Localised Necking in Metal Sheets under Stretch-Bending. Metals, 7 (11), 1-16. |
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