International Journal of Science and Research (IJSR)

International Journal of Science and Research (IJSR)
www.ijsr.net | Most Trusted Research Journal Since Year 2012

ISSN: 2319-7064

Research Paper | Mechanical Engineering | Ukraine | Volume 6 Issue 7, July 2017

The Study of Folding Defects during the Radial-Forward Extrusion in the Enclosed Dies

Dr. Payman Abhari

In this paper, the radial-forward extrusion process in the enclosed dies to create precision parts is considered. The numerical simulation techniques by using the rigid-plastic finite element method (FEM) as software QForm 2D have been applied to investigate in this paper. Based on the finite element simulations, forming characteristics such as patterns (gridlines distortion), distributions of effective strain and stress at several stages of process with different forming parameters, the relative pressure variations on the punch with different relationships parameters and also to predict and avoid folding defect in radial-forward extrusion process have been investigated by using this numerical simulation method.

Keywords: Cold forging, Enclosed die, Finite element simulation, Radial-forward extrusion

Edition: Volume 6 Issue 7, July 2017

Pages: 1746 - 1749


How to Cite this Article?

Dr. Payman Abhari, "The Study of Folding Defects during the Radial-Forward Extrusion in the Enclosed Dies", International Journal of Science and Research (IJSR), https://www.ijsr.net/search_index_results_paperid.php?id=ART20175702, Volume 6 Issue 7, July 2017, 1746 - 1749

15 PDF Views | 21 PDF Downloads

Download Article PDF



Similar Articles with Keyword 'Finite element simulation'

Research Paper, Mechanical Engineering, India, Volume 3 Issue 7, July 2014

Pages: 703 - 706

Computational and Evaluation of Orthogonal Metal Cutting Process Using Ale Method

K. Siddaruda, Gourishankar Hiremath

Share this article

Research Paper, Mechanical Engineering, India, Volume 4 Issue 8, August 2015

Pages: 1472 - 1474

Finite Element Simulation of Residual Stresses in Roller Bent Section

Vishnu Prasad, Kedar Mohan

Share this article

Research Paper, Mechanical Engineering, China, Volume 5 Issue 12, December 2016

Pages: 1726 - 1730

Finite Element Simulation of Whirling Temperature of Titanium Alloy Based on DEFORM

LIU Shunhua

Share this article

Research Paper, Mechanical Engineering, China, Volume 4 Issue 12, December 2015

Pages: 1436 - 1439

Research on FLD of H340LAD Niobium Alloy Steel Based on the Finite Element Method

Liwen Tian, Changfeng Men

Share this article

Research Paper, Mechanical Engineering, China, Volume 4 Issue 3, March 2015

Pages: 2318 - 2321

Finite Element Simulation for Cutting of Ti6AI4V

Lameck Sondo

Share this article

Top