Bijan Mollaei Dariani scite author profile

Formability of sheet metals is often assessed by means of forming limit diagrams (FLD). In this paper, performing three different series of experiments, the effect of forming velocity on FLDs is investigated experimentally for Al 6061-T6 and AISI 1045 sheets. In addition to determining the conventional FLDs at quasi-static condition ( _ " 6 0.01/s), FLDs were acquired in the case of forming by low impact ( _ " 6 50/s) as well as explosive free-forming ( _ " 6 1000/s). Samples were deformed in different strain states, thereby generating data for both sides of the FLD. Numerical simulating of stand-off explosive forming tests, the dies and specimens were designed accurately. The Johnson-Cook constitutive model for metal sheets and the Jones-Wilkins-Lee (JWL) model for the explosive charge were used. In order to optimize the sheet and explosive mesh size, a sensitivity analysis was carried out by using the response surface method.The results show that while a substantial improvement in high strain rate formability of the aluminium sheet can be obtained, this improvement is not considerable for the steel sheets. Also, under the effect of contact pressure between tool and sheet, the formability increases for both steel and aluminium sheets on impact.

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Numerical and experimental investigations of hydro-mechanical deep drawing process of laminated aluminum/steel sheets

Bagherzadeh

Mirnia

Dariani

2015

Journal of Manufacturing Processes

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Analysis of incremental sheet metal forming using the upper-bound approach

Mirnia

Dariani

2012

Proceedings of the Institution of Mechanical Engineers, Part B:

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The incremental sheet metal forming is a flexible process producing various parts with no need for dedicated dies. In this article, the upper-bound approach is used to study the deformation zone of single point incremental forming of truncated cones. The velocity field and the dissipated power of the process are achieved using an assumed deformation zone and streamlines defined by Bezier curves. The tangential force acting on the tool is attained by optimizing the presented upper-bound solution. Then, influences of the effective parameters including vertical pitch, initial thickness, tool diameter, and wall angle on the tangential force and the predicted equivalent strain are investigated. A strain hardening law is utilized to consider the work hardening behavior of sheet metals. In order to validate the presented upper-bound solution, predicted tangential forces are compared with experimental data reported in literature for forming AA3003 truncated cones. The comparison shows an appropriate agreement between experimental and predicted tangential forces.

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Evaluation of Dissimilar Welds of 5083-H12 and 6061-T6 Produced by Friction Stir Welding

Ghaffarpour

Kolahgar

Dariani

et al. 2013

Metall Mater Trans A

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