Kumar, Pankaj and Husain, M M and Hembrom, S and Roy, B N (2022) Microstructure Property Correlation of Low Alloy Steel Processed through Heat Treatment. YMER, 21(11) . pp. 1-11.
PDF (Microstructure Property Correlation of Low Alloy Steel Processed through Heat Treatment) - Published Version Restricted to NML users only. Others may use -> 794Kb |
Abstract
In the current study, an effort has been made to establish a relationship between the low alloy steel’s microstructure and properties. Austenitizing temperature of for this low steel was taken at 1150˚C for 1-hour holding for annealing, normalizing, quenching in water and oil. Tempering was done (below A1) at 550˚C for a two-hour holding period, and then quenched specimens were cooled by air. By using optical microscopy and SEM, on base specimen ferrite, carbides and early austenite grains (PAG). Microstructure of the annealing specimen was ferrite + pearlite. Microstructure of the normalizing specimen was proeutectoid ferrite and fine carbide with bainite. Ferrite + tempered martensite + carbide precipitates are observed in microstructure of quenched in water followed by tempering of low alloy steel. Ferrite + bainite + carbide precipitates are observed in microstructure of quenched in oil followed by tempering of low alloy steel. The mechanical properties of base alloy, annealing, normalizing, water and oil quenching followed by tempering low alloy specimens are was tested by Vickers macro hardness, Tensile test (UTS, Y.S, Elongation %) and Charpy impact test are 195.46 HV,150.19 HV, 289.90 HV, 337.33 HV and 289.71 HV; (610.82 MPa, 444.99 MPa, 823.28 MPa, 954.89 MPa and 916.73 Mpa; 492 MPa, 241.41 MPa, 604.74 MPa, 837.04 MPa and 788.15 MPa; 22.07 %, 18.94 %, 12.17 %, 11.84 % and 12.63 %); 85.5 J, 20.67 J, 32.67 J, 25.33 J and 22.67 J respectively. Fractography of tensile specimens of base alloy and heat treated reveal ductile fracture.
Item Type: | Article |
---|---|
Official URL/DOI: | https://ymerdigital.com |
Uncontrolled Keywords: | Low alloy steel; Heat treatment; Microstructure; Mechanical properties |
Divisions: | Material Science and Technology |
ID Code: | 9345 |
Deposited By: | Dr Mita Tarafder |
Deposited On: | 07 Feb 2023 18:01 |
Last Modified: | 07 Feb 2023 18:01 |
Related URLs: |
Repository Staff Only: item control page