An analytic study of porosity evolution in powder metallurgy forming process

Author

Sudhakar, B.

Author_Institution

Dept. of Eng. Mech., Alabama Univ., Tuscaloosa, AL, USA

fYear

1993

fDate

7-9 Mar 1993

Firstpage

210

Lastpage

214

Abstract

The behavior of a porous metal in a closed-die compression test is studied with the aid of a Gurson-type model, and the results are compared with the results obtained from its quadratic approximation and the yield functions of S. Shima and M. Oyane (1976) and S.M. Doraivelu et al. (1984). Once the initial porosity and the effective stress-strain relation for the matrix is provided, the response of the powder compact can be predicted for a closed-die compaction case. The simulation demonstrates that quadratic approximation gives a response very close to that predicted by the yield functions. The Gurson-type model seems to be inaccurate at high initial porosities. However, more mechanical tests need to be performed on these yield functions before any conclusions can be made

Keywords

compressive testing; densification; metals; porous materials; powder metallurgy; stress-strain relations; Gurson-type model; closed-die compression test; porosity evolution; porous metal; powder metallurgy forming; quadratic approximation; stress-strain relation; yield functions; Capacitive sensors; Deformable models; Equations; Materials testing; Micromechanical devices; Plastics; Powders; Preforms; Solids; Tensile stress;

fLanguage

English

Publisher

ieee

Conference_Titel

System Theory, 1993. Proceedings SSST '93., Twenty-Fifth Southeastern Symposium on

Conference_Location

Tuscaloosa, AL

ISSN

0094-2898

Print_ISBN

0-8186-3560-6

Type

conf

DOI

10.1109/SSST.1993.522772

Filename

522772