Add to ORKGIn this paper the influence of different percentage of bainite on the mechanical properties of nickel-chromium steel has been investigated. Hardness was found to decrease with the increase of bainite in the microstructure at all temperatures of investigation and after complete transformation in the range of 500°C-350°C minimum hardness was observed at 450°C for all percentages of bainite. The cause of minimum hardness at 450°C was investigated. Similar observations were also made in the tensile strength curves. Moreover, a comparative study has been made between mechanical properties of 100% bainite and quenched and tempered products. The mechanical properties of 100% bainite was always inferior to that of quenched and tempered products, ex...
Herein, the effect of Nb content on the phase transformation kinetics, microstructure, and mechanica...
Recent work has demonstrated that bearing steels, which display ultra-hardness and -strength, posses...
<p>Certain structural applications require materials to possess both high strength and high toughnes...
This work presents the effect of Ni content on the bainite morphology and in the mechanical properti...
The multi-pass deposited metals were prepared by metal-cored wire with low (2.5 wt%) and high (4.0 w...
The formation of bainite in steel alloys is affected not only by temperature, holding time, and coo...
Cr, Mo and/or Ni were added to TRIP-aided bainitic ferrite (TBF) steel (0.2% C, 1.5% Si, 1.5% Mn and...
In this work, three deposited metals with different nickel (Ni) contents were produced by active gas...
Abstract The effect of chromium content in the range of 1 wt.%–4 wt.% on the microstructure and mec...
Transformation characteristics of five 0.35 to 0.4% carbon alloy steels containing nickel, manganese...
Bainitic transformations in steels is a well-known phenomenon for more than 60 years. However, in re...
Two low carbon carbide-free bainitic steels (with and without Cr addition) were designed, and each s...
The effects of B and Cu addition and cooling rate on microstructure and mechanical properties of low...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
The effects of carbon equivalent and cooling rateon tensile and Charpy impact properties of high-str...
Herein, the effect of Nb content on the phase transformation kinetics, microstructure, and mechanica...
Recent work has demonstrated that bearing steels, which display ultra-hardness and -strength, posses...
<p>Certain structural applications require materials to possess both high strength and high toughnes...
This work presents the effect of Ni content on the bainite morphology and in the mechanical properti...
The multi-pass deposited metals were prepared by metal-cored wire with low (2.5 wt%) and high (4.0 w...
The formation of bainite in steel alloys is affected not only by temperature, holding time, and coo...
Cr, Mo and/or Ni were added to TRIP-aided bainitic ferrite (TBF) steel (0.2% C, 1.5% Si, 1.5% Mn and...
In this work, three deposited metals with different nickel (Ni) contents were produced by active gas...
Abstract The effect of chromium content in the range of 1 wt.%–4 wt.% on the microstructure and mec...
Transformation characteristics of five 0.35 to 0.4% carbon alloy steels containing nickel, manganese...
Bainitic transformations in steels is a well-known phenomenon for more than 60 years. However, in re...
Two low carbon carbide-free bainitic steels (with and without Cr addition) were designed, and each s...
The effects of B and Cu addition and cooling rate on microstructure and mechanical properties of low...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
The effects of carbon equivalent and cooling rateon tensile and Charpy impact properties of high-str...
Herein, the effect of Nb content on the phase transformation kinetics, microstructure, and mechanica...
Recent work has demonstrated that bearing steels, which display ultra-hardness and -strength, posses...
<p>Certain structural applications require materials to possess both high strength and high toughnes...