2009
DOI: 10.1007/s11669-009-9500-7
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Effect of Alloy Composition on Carburizing Performance of Steel

Abstract: This paper investigates the effect of alloy composition on the gas carburizing performance of AISI 1018, 4820, 5120, and 8620 steels. The mass-transfer coefficients and carbon diffusivities were calculated from experimental measurements using direct flux integration. Although steels with high concentration of austenite-stabilizing elements (Si, Ni) increased carbon diffusivity in austenite, they significantly reduced the kinetics of carbon transfer from the atmosphere to the steel surface and resulted in lower… Show more

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Cited by 40 publications
(13 citation statements)
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“…Zhukov and Krishtal 18) indicated that that Cr attracts C and reduces the activity of C whereas Ni repulses C, resulting in an increase in C activity. Similarly, Rowan and Sisson 4) found that additions of Ni, which is an austenite-stabilizer, and Si, which is a ferrite stabilizer, increase the carbon diffusivity in austenite. Additions of carbide-forming elements such as Cr and Mo, on the other hand, decrease the carbon diffusivity by attracting C atoms.…”
Section: Equation For Fe-m-c Alloysmentioning
confidence: 86%
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“…Zhukov and Krishtal 18) indicated that that Cr attracts C and reduces the activity of C whereas Ni repulses C, resulting in an increase in C activity. Similarly, Rowan and Sisson 4) found that additions of Ni, which is an austenite-stabilizer, and Si, which is a ferrite stabilizer, increase the carbon diffusivity in austenite. Additions of carbide-forming elements such as Cr and Mo, on the other hand, decrease the carbon diffusivity by attracting C atoms.…”
Section: Equation For Fe-m-c Alloysmentioning
confidence: 86%
“…Figure 6 compares carbon diffusivities predicted by Eq. (17) with measured 4,11,22,24) carbon diffusivities in various alloy steels. The temperature range of data used is between 850 and 1 075°C.…”
Section: Equation For Multicomponent Steel Alloysmentioning
confidence: 97%
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“…Specifically, Cr and Mo additions increase the mass transfer of carbon to the surface of the part over that of a plain carbon steel, and previous research has shown that the equilibrium surface concentration of carbon in Cr-and Mo-containing steels result in higher values than a plain carbon steel. [20] C. Heat Treatment and Mechanical Property Investigation Table V shows the average Vickers microhardness measurement for several samples carburized to carbon contents near 0.40 wt pct and cooled slowly to a pearlitic microstructure, prior to any subsequent heat treatment. Also included in Table V is the carbon content as determined through combustion analysis of these samples.…”
Section: Resultsmentioning
confidence: 99%