EFFECT OF STRAIN RATE ON MICROSTRUCTURE OF A LOW CARBON STEEL WIRE

Authors

  • H BOUHALAIS Université Constantine 1 (ex Mentouri )
  • Z LAROUK Université Constantine 1 (ex Mentouri )

Keywords:

Low carbon steel, deformation, wiredrawing, microstructure, recrystallization, Acier à bas carbone, déformation, tréfilage, recristallisation

Abstract

The commercial importance of low alloy carbon steels is due to their plastic deformation properties. These properties allow them to be formed into useful shapes such as wires. The present steel is produced by Trifisoud- Setif –Algeria and used for wiring. It is a low carbon steel wire containing mainly (weight %) 0.05%C, 0.3%Mn, 0.1%S and 0.12%Cr and is supplied as rods. The optical microscopic and SEM analyses are used to identify the
microstructure of the material in as received and deformed conditions. It is found that tensile properties depend on the wiredrawing area reduction (τw). The annealing temperatures and the grain size are determined; they also vary with τw .

Downloads

Download data is not yet available.

Author Biographies

H BOUHALAIS, Université Constantine 1 (ex Mentouri )

Laboratoire de Microstructures et Défauts dans les Matériaux.
Département de Physique

Z LAROUK, Université Constantine 1 (ex Mentouri )

Laboratoire de Microstructures et Défauts dans les Matériaux.
Département de Physique

References

G. E.Dieter, ” Mechanical Metallurgy” 3rd Edition , McGraw Hill book company, 1986, pp197-198.

J.Philibert, A.Vignes, Y. Beéchet, and P;Combrade "Métallurgie du minerai au matériau", Ed. Masson, Paris, 1998, pp. 776-776

S. Tandon, S. p. Deshmukh, R. S. Mishra, and K.Krishnamurthy and R. Tayloe, " Fracture criteria prediction in wiredrawing using finite element modeling", Wire Journal International, January, 2006,pp58-62.

M.Gagné and E. Thibault, "Control of inclusion characteristics in direct cast steel billets", Canad..Met. Quarterly., vol. 38, N°.5, 1999, pp. 311-321

A. Cottrell "An introduction to metallurgy" ,ELBS Arnold, 2nd Edition , London, 1982.

"ASTM Standard Designation“ E112-88.,1994, book of ASTM standard, vol.301, ASTM, Philadelphia, P, A 1997, pp227.

B.Yalamanshili, P.M.Power, and D.Landham, “A technical review of industrial practices for decreasing the strain hardening rate of low carbon steel”, Wire Journal International, July 2005, pp108-111.

H.Bouhalais and Z.Larouk " Microstructure characterisation of a low carbon steel wire" JMSM2006, Meknès, 24-26 Novembre 2006, pp. 272.

R.W.K. Honeycombe "The Plastic deformation of metals", Edward Arnold Ltd, London, 1994.

F.M. Guclu and H. Cimenoglu "The Recrystallization Behaviour Of CP-Titanium", Materials Science Forum Vols. 467-470, 2004, pp.459-464.

J.Philibert, A.Vignes, Y. Beéchet, and P; Combrade, " Métallurgie du minerai au matériau", Ed. Masson, Paris, 1998, pp768-769.

Downloads

Published

2011-12-01

How to Cite

BOUHALAIS, H., & LAROUK, Z. (2011). EFFECT OF STRAIN RATE ON MICROSTRUCTURE OF A LOW CARBON STEEL WIRE. Sciences & Technology. A, Exactes Sciences, (34), 9–13. Retrieved from https://revue.umc.edu.dz/a/article/view/7

Issue

N° 34 Décembre 2011

Section

Articles

Similar Articles

1 2 3 4 5 6 > >> 

You may also start an advanced similarity search for this article.