Diffusion induced decomposition of cementite layers during gas nitriding of 4140 steel: thermodynamical and kinetical aspects

Nazari, Hossein; Aghajani, Hossein; Al-azawi, Falih Hussain Saddam

doi:10.1088/2051-672x/ac5a73

Surf. Topogr.: Metrol. Prop.

2022

DOI: 10.1088/2051-672x/ac5a73

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Diffusion induced decomposition of cementite layers during gas nitriding of 4140 steel: thermodynamical and kinetical aspects

Hossein Nazari¹,

Hossein Aghajani²,

Falih Hussain Saddam Al-azawi³

Abstract: In this paper, some new aspects of the decomposition of cementite layers by diffusion of nitrogen during gas nitriding are investigated. Therefore, AISI4140 steel samples were heat-treated to harden by heating up to 1113 K for 120 minutes, followed by quenching in agitated mineral oil. Then samples were tempered at 863 K for 60 minutes. Nitriding was carried out for 1400 up to 21000 minutes. Samples were characterized by optical microscope, scanning electron microscope, X-ray diffractometer, and HSC thermodyna… Show more

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2024

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Effect of salt bath nitriding on tribological properties of AISI52100 steel coatings using response surface methodology

Ramalingam,

Sivakumaran,

Mariappan

et al. 2024

CI&CEQ

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This investigation employs the salt bath nitriding to extend the service life and improve the surface characteristics of AISI 52100, commonly employed in bearing applications. A wear test was conducted using a pin-on-disc device according to ASTM G-99 standard, and the findings show a 30% reduction in wear loss. Sliding wear experiments were conducted at 1.5 meters per sec with a 5 N force at room temperature on uncoated and nitrided pins which was obtained as optimum value from RSM. The three variables five levels central composite design (CCD) were utilized in order to reduce the number of trails and the model relations were examined through ANOVA. Surface hardness, friction coefficient, wear coefficient, Loss in wear is measured over pins without coating and nitride pins. Investigations were done into how 5W30 oil affected passive and drip lubrication. Nitride substrates had a hardness of 590 HV. Also, nitriding has a favorable effect on the friction coefficient, lowering it by up to 23%. The 5W30 lubricant will further decrease the friction coefficient. The lowest coefficient of friction was seen with the addition of 14% drip oil lubrication. Significantly less wear loss in the pin was caused by a combination of high hardness and low coefficient of friction.

show abstract

Effect of salt bath nitriding on tribological properties of AISI52100 steel coatings using response surface methodology

Ramalingam,

Sivakumaran,

Mariappan

et al. 2024

CI&CEQ

View full text Add to dashboard Cite

show abstract

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Diffusion induced decomposition of cementite layers during gas nitriding of 4140 steel: thermodynamical and kinetical aspects

Cited by 1 publication

References 37 publications

Effect of salt bath nitriding on tribological properties of AISI52100 steel coatings using response surface methodology

Effect of salt bath nitriding on tribological properties of AISI52100 steel coatings using response surface methodology

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