Paper Title:
Investigation on Steady-State Wire Drawing for Strain-Rate Sensitivity Materials
  Abstract

In this reaearch, the finite element method is used to investigate the steady-state wire drawing process for strain-rate sensitivity materials. A series of simulations on the wire drawing using the program DEFORM-2D were carried out. The influences of the process parameters such as drawing speed and strain-rate sensitivity index of the wire material on the drawing die stress, the separation force, the effective strain-rate distribution, and the effective stress distribution of the drawing die were examined.

  Info
Periodical
Key Engineering Materials (Volumes 364-366)
Edited by
Guo Fan JIN, Wing Bun LEE, Chi Fai CHEUNG and Suet TO
Pages
992-997
DOI
10.4028/www.scientific.net/KEM.364-366.992
Citation
H. R. Shih, C. T. Kwan, "Investigation on Steady-State Wire Drawing for Strain-Rate Sensitivity Materials", Key Engineering Materials, Vols. 364-366, pp. 992-997, 2008
Online since
December 2007
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: You Min Huang, Yi Wei Tsai
Abstract:A methodology of formulating an elasto-plastic three-dimensional finite element model, which is based on Prandtl-Reuss flow rule and von...
350
Authors: Zhi Ren Han, Ze Bing Yuan
Chapter 13: Materials Forming
Abstract:This paper is focus on two-Pass Deep Drawing Forming of conical axisymmetric parts, study on the finite element simulation and test of...
1966
Authors: Lucian Lazarescu, Ioan Nicodim, Dorel Banabic
Chapter 2: Forming
Abstract:In the deep drawing process, the blank-holding force (BHF) is an important process parameter affecting the energy consumption and the...
33
Authors: Peter Bella, Pavol Buček, Martin Ridzoň, Milan Mojžiš, Ľudovít Parilák
Chapter 8: Numerical Analysis and Modelling
Abstract:In Železiarne Podbrezová, cold drawing process is the final process in production of precision seamless steel tubes. This particular...
708