Abstract
This paper presents the analysis of friction effects in an automotive industry steel sheet deep-drawing process. Stress analysis was performed with the use of the non-linear codes, ABAQUS and MARC. Descriptions are given of the experimental test that was performed on eight circular FePO/sub 4/ steel sheets; the measured data are interpreted; and comparisons are made between the experimental test and numerical simulation data. The comparative analysis shows that even if the simulations were executed only in axisymmetric bi-dimensional geometry, some significant experimental results were reproduced in a satisfactory way. In addition, the analysis points out how a good knowledge of the phenomena and mathematical models is very important for the choice of the best strategy to adopt in numerical simulation.
Citation Formats
Amodio, D, Santucci, G, Daneri, A, Giambuzzi, S, Toselli, G, Pietrosanti, C, Segala, A, and Vicino, F.
Sheet deep-drawing process friction effects: Experimental tests, result interpretation, numerical simulations.
Italy: N. p.,
1991.
Web.
Amodio, D, Santucci, G, Daneri, A, Giambuzzi, S, Toselli, G, Pietrosanti, C, Segala, A, & Vicino, F.
Sheet deep-drawing process friction effects: Experimental tests, result interpretation, numerical simulations.
Italy.
Amodio, D, Santucci, G, Daneri, A, Giambuzzi, S, Toselli, G, Pietrosanti, C, Segala, A, and Vicino, F.
1991.
"Sheet deep-drawing process friction effects: Experimental tests, result interpretation, numerical simulations."
Italy.
@misc{etde_10131887,
title = {Sheet deep-drawing process friction effects: Experimental tests, result interpretation, numerical simulations}
author = {Amodio, D, Santucci, G, Daneri, A, Giambuzzi, S, Toselli, G, Pietrosanti, C, Segala, A, and Vicino, F}
abstractNote = {This paper presents the analysis of friction effects in an automotive industry steel sheet deep-drawing process. Stress analysis was performed with the use of the non-linear codes, ABAQUS and MARC. Descriptions are given of the experimental test that was performed on eight circular FePO/sub 4/ steel sheets; the measured data are interpreted; and comparisons are made between the experimental test and numerical simulation data. The comparative analysis shows that even if the simulations were executed only in axisymmetric bi-dimensional geometry, some significant experimental results were reproduced in a satisfactory way. In addition, the analysis points out how a good knowledge of the phenomena and mathematical models is very important for the choice of the best strategy to adopt in numerical simulation.}
place = {Italy}
year = {1991}
month = {Sep}
}
title = {Sheet deep-drawing process friction effects: Experimental tests, result interpretation, numerical simulations}
author = {Amodio, D, Santucci, G, Daneri, A, Giambuzzi, S, Toselli, G, Pietrosanti, C, Segala, A, and Vicino, F}
abstractNote = {This paper presents the analysis of friction effects in an automotive industry steel sheet deep-drawing process. Stress analysis was performed with the use of the non-linear codes, ABAQUS and MARC. Descriptions are given of the experimental test that was performed on eight circular FePO/sub 4/ steel sheets; the measured data are interpreted; and comparisons are made between the experimental test and numerical simulation data. The comparative analysis shows that even if the simulations were executed only in axisymmetric bi-dimensional geometry, some significant experimental results were reproduced in a satisfactory way. In addition, the analysis points out how a good knowledge of the phenomena and mathematical models is very important for the choice of the best strategy to adopt in numerical simulation.}
place = {Italy}
year = {1991}
month = {Sep}
}