Increase in Ductility of High Carbon Steel Due to Accelerated Precipitation of Cementite


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Abstract

Eutectoid steel AISI 1080 is studied after annealing at 850°C and thermal cycling treatment (TCT) that involves heating at a rate of 10 K/min to 775°C, holding for 10 min, and cooling at a rate of 95 K/min. An increase is established in the content of cementite precipitating over austenite grain boundaries, and relative elongation with retention of yield and ultimate strengths with an increase in number of TCT cycles. After five cycles relative elongation reaches 29% with ultimate strength of 670 MPa.

About the authors

Muhammad Ali

Institute of Advanced Materials, Bahauddin Zakariya University

Author for correspondence.
Email: muhammad.ali@bzu.edu.pk
Pakistan, Multan

Ehsan UlHaq

Department of Engineering for Innovations, University of Salento

Email: muhammad.ali@bzu.edu.pk
Italy, Lecce

Ather Ibrahim

Institute of Advanced Materials, Bahauddin Zakariya University

Email: muhammad.ali@bzu.edu.pk
Pakistan, Multan

Muhammad Ramzan Abdul Karim

Department of Applied Science and Technology, Turin Polytechnic University

Email: muhammad.ali@bzu.edu.pk
Italy, Turin

A. Ali

Institute of Advanced Materials, Bahauddin Zakariya University

Email: muhammad.ali@bzu.edu.pk
Pakistan, Multan

M. Fayyaz

Institute of Advanced Materials, Bahauddin Zakariya University

Email: muhammad.ali@bzu.edu.pk
Pakistan, Multan

F. K. Khera

Institute of Advanced Materials, Bahauddin Zakariya University

Email: muhammad.ali@bzu.edu.pk
Pakistan, Multan

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