Ali Khajesarvi - Department of Mining and Metallurgical Engineering, Yazd University, University Blvd, Safayieh, Yazd, PO Box: ۹۸۱۹۵ – ۷۴۱, Iran
Seyed Sadegh Ghasemi Banadkouki - Materials Science and Engineering, Yazd University
Seyed Abdolkarim Sajjadi - Professor Department of Materials Engineering Faculty of Engineering

This paper has been concerned to investigate in details the effect of tempering heat treatment on mechanical properties of ۳۵CHGSA heat treatable low alloy steel under ferrite–martensite dual-phase (DP) microstructures. For this aim, two sets of ferrite–martensite DP samples containing ۶% volume fraction of ferrite have been developed using step-quench heat treatment processes at ۷۲۰°C for ۵ min holding times with the subsequent water quenching after being austenitized at ۹۰۰°C for ۱۵ min. In comparison to first set of fresh ferrite–martensite DP samples (marked FDP), the finalized tempering heat treatment has been carried out at ۵۰۰°C for ۶۰ min only for the second set of tempered ferrite–martensite DP (marked TDP) samples in order to optimize the strength–ductility combination. Light and electron microscopes have been used in conjunction with hardness and tensile tests to assess the structure–property relationships of FDP and TDP heat-treated samples. The experimental results demonstrate that the mechanical properties of FDP heat-treated samples are significantly increased after tempering heat treatment. The product of tensile strength multiple total elongation has been significantly increased from ۲.۴ (FDP) to ۱۵.۸% GPa (TDP). Moreover, the absorbed impact energy is sharply increased from ۳.۵ to ۱۲ J cm-۲ corresponding to the FDP and TDP marked samples, respectively. These results are rationalized to the fact that the tempering heat treatment modifies the individual mechanical behavior of ferrite and martensite microphases through influencing the ferrite and martensite hardening variations.

Medium silicon low alloy steel, step-quenching, Tempering, ferrite&ndash, martensite DP microstructure, ferrite and martensite hardening variation