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Vol. 32 No. 1-2 (2007): Journal for Technology of Plasticity
Original articles

An approximate solution for axisymmetric extrusion of porous material

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  • Sergei Alexandrov,
  • Olga Chesnikova,
  • Alexander Pirumov
Sergei Alexandrov
Institute for Problems in Mechanics of Russian Academy of Sciences, Moscow, Russia
Olga Chesnikova
Moscow State University of Instrument-Building and Informatics, Moscow, Russia
Alexander Pirumov
Moscow State University of Instrument-Building and Informatics, Moscow, Russia

Published 2007-12-21

abstract views: 8 // Full text article (PDF): 4


Keywords

  • axisymmetric extrusion,
  • porous material,
  • Hill’s method

How to Cite

Alexandrov, S., Chesnikova, O., & Pirumov, A. (2007). An approximate solution for axisymmetric extrusion of porous material. Advanced Technologies and Materials, 32(1-2), 13–27. Retrieved from https://atm-journal.uns.ac.rs/index.php/atm/article/view/jtp.2007.32.1-2.2
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This work is licensed under a Creative Commons Attribution 4.0 International License.

Abstract

The paper concerns with a theoretical solution for axisymmetric extrusion of porous material through a conical die. It is assumed that the material is rigid plastic, obeying Green’s yield criterion and its associated flow rule. Coulomb’s friction law is adopted at the die surface. Hill’s method is used to derive simplified equilibrium equations. Therefore, the solution reduces to ordinary differential equations which are solved numerically. The variation of product porosity with process parameters as well as the distribution of the porosity in the plastic zone is illustrated. The solution is compared to another approximate solution based on a singular yield criterion.

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