Mechanical Properties and Texture Evolution of High-Carbon Steel Wires during Wire Drawing: Strand Manufacturing

Mechanical Properties and Texture Evolution of High-Carbon Steel Wires during Wire Drawing: Strand Manufacturing

In this paper, the evolution of texture in the ferrite phase and mechanical behavior of cold-drawn pearlitic steel wires produced for strand manufacturing at Trefisoud company was investigated. Wire drawing induces the development of dislocation density, reduction of interlamellar spacing and the re...

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Veröffentlicht in:International journal of engineering research in Africa (Print) 2020-01, Vol.49, p.130-138
Hauptverfasser: Zidani, Mosbah, Baudin, Thierry, Nebbar, Mohamed-Chaouki, Brisset, François, Kisrane-Bouzidi, Ahmed, Helbert, A.L., Abid, Tahar
Format: Artikel
Sprache:eng
Schlagworte:
Cementite
Dislocation density
Engineering Sciences
Ferrite
Fibrous structure
High carbon steels
Lamellar structure
Manufacturing
Mechanical properties
Mechanics
Mechanics of materials
Steel wire
Strain analysis
Tensile strength
Texture
Thickness
Wire drawing
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Zusammenfassung:In this paper, the evolution of texture in the ferrite phase and mechanical behavior of cold-drawn pearlitic steel wires produced for strand manufacturing at Trefisoud company was investigated. Wire drawing induces the development of dislocation density, reduction of interlamellar spacing and the refinement of grains size which leads to a strong hardening of the wires. That explains the increase of the tensile strength from 1242 MPa to 2618 MPa with higher deformation. Also, the cementite lamellae are rotated toward the drawing axis and the thickness of lamellae further decreases when strain level increases, this phenomenon leads to a somewhat fibrous structure. The quantitative analysis obtained by EBSD data shows the development of a strong ( // ND) texture of the ferrite phase leading to a structural transformation from isotropic to anisotropic.
ISSN:1663-3571
1663-4144
1663-4144
DOI:10.4028/www.scientific.net/JERA.49.130