Abstract
Patenting
heat treatment wires in the production of bead wire, spring wire, prestressed
concrete wire and wire rope provide suitable microstructural properties for
subsequent diameter reduction steps. The process of patenting in the fluidized
bed, which is a faster and more environmentally friendly process than the
conventional lead bath, is carried out in two stages: After heating to the
austenitizing temperature, a thin perlite structure is obtained after cooling
at the appropriate speeds in the fluid sand bed. Both high tensile strength and
ductility can be achieved by suitable patenting conditions. The effect of fluid
bed temperatures and cooling rate on the success of the process is of critical
importance. In this study, mechanical properties (tensile, elongation,
elongation ratio, torsion) and microstructure effects of different fluidized
bed temperatures for wt.%0,83 carbon wires at 3.5 mm diameter were
investigated.
References
- [1] R. Wright, Wire Technology, Second Edition: Process Engineering and Metallurgy B-H, (2011).
- [2] I.A. Khvorova Materials Science, Tomsk Polytechnic University Publishing House (2012).
- [3] S. D. Bhole, J. A. Friedman, Steel wire patenting: thermal and metallurgical comparison between quenching in lead and quenching in a fluidised bed, Int. Heat Treatment and Surface Eng. Vol4.,(2010), 152-155.
- [4] A.M. Elwazri , P. Wanjara , S. Yue, The effect of microstructural characteristics of pearlite on the mechanical properties of hypereutectoid steel, Materials Sci. and Engineering A 404 (2005) 91–98.
- [5] S. S. Bargujera,, N.M. Suria, R. M. Belokara, Pearlitic steel wire: High carbon steel based natural nanomaterial by lead patenting process, Materials Today: Proceedings 3 (2016) 1553–1562.
- [6] S. Wiewiórowska, Z. Muskalski, The assessment of the structure and properties of high-carbon steel wires after the process of patenting with induction heating, Archieves of Metallurgy and Materials Vol. 60 (2015) 855-858.
Abstract
References
- [1] R. Wright, Wire Technology, Second Edition: Process Engineering and Metallurgy B-H, (2011).
- [2] I.A. Khvorova Materials Science, Tomsk Polytechnic University Publishing House (2012).
- [3] S. D. Bhole, J. A. Friedman, Steel wire patenting: thermal and metallurgical comparison between quenching in lead and quenching in a fluidised bed, Int. Heat Treatment and Surface Eng. Vol4.,(2010), 152-155.
- [4] A.M. Elwazri , P. Wanjara , S. Yue, The effect of microstructural characteristics of pearlite on the mechanical properties of hypereutectoid steel, Materials Sci. and Engineering A 404 (2005) 91–98.
- [5] S. S. Bargujera,, N.M. Suria, R. M. Belokara, Pearlitic steel wire: High carbon steel based natural nanomaterial by lead patenting process, Materials Today: Proceedings 3 (2016) 1553–1562.
- [6] S. Wiewiórowska, Z. Muskalski, The assessment of the structure and properties of high-carbon steel wires after the process of patenting with induction heating, Archieves of Metallurgy and Materials Vol. 60 (2015) 855-858.
Details
| Primary Language | English |
|---|---|
| Subjects | Material Production Technologies |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | December 31, 2018 |
| Published in Issue | Year 2018 Volume: 2 Issue: 1 |