Effective Duration of Gas Nitriding Process on AISI 316L for the Formation of a Desired Thickness of Surface Nitrided Layer

Mahmoud, H; Yusoff, Syafiq A.; Zainuddin, Azman; Hussain, Patthi; Ismail, Mokhtar Che; Abidin, Kamal Ariff Zainal

doi:10.1051/matecconf/20141304021

Cited by 3 publications

(2 citation statements)

References 11 publications

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“…Besides that, according to the graph, it can be seen that the hardness decreases progressively as the depth increases until it approaches hardness values to those of the untreated sample. The increase in hardness as a result of the gas nitriding process has been reported previously by Mahmoud et al [66], where they found that the AISI 316L after the nitriding process have greater microhardness than compared to the untreated sample. A value surface hardness of about 1400 HV0.025 of the AISI 316L during nitrocarburizing has also been reported by Pinedo et al [67].…”

Section: Surface Hardness Profilesupporting

confidence: 77%

Microstructure, Mechanical and Tribological Behaviour of Aisi 316l Stainless Steel During Salt Bath Nitriding

Ghelloudj

2021

Acta Metall Slovaca

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The aim of the current work was to analyse the impact of salt bath nitriding on the behavior of the tribological characteristics and surface microstructures of AISI 316L stainless steels. Nitriding was carried out at 580°C for 10 h. The tribological, structural behavior of the AISI 316L before and after salt bath nitriding was compared. The surface microstructures, tribological characteristics, as well as its surface hardness, were investigated using optical microscopy (OM), X-ray diffractometer (XRD), surface profilometer, pin-on-disk wear tester and microhardness tester. In the current work the experimental results showed that a great surface hardness could be achievable through salt bath nitriding technique because of the formation of the so-called expanded Austenite (S-phase), the nitrogen diffusion region. The surface hardness of AISI 316 stainless steel after nitriding process reached 1100 HV0.025 which was six times the untreated sample hardness. The S-phase is additionally expected to the improvement of wear resistance and decrease the friction coefficient.

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Section: Surface Hardness Profilesupporting

confidence: 77%

Microstructure, Mechanical and Tribological Behaviour of Aisi 316l Stainless Steel During Salt Bath Nitriding

Ghelloudj

2021

Acta Metall Slovaca

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“…Low hardness of the surface could lead to the failure of operational parts and to the operational equipment which significantly limits the use of those materials. Therefore, one of the approaches to overcome those limitations has become a nitriding treatment [1]. Gas nitriding is a thermal treatment process for diffusing nitrogen into steels by introducing ammonia (NH3) gas in a furnace and holding at a temperature below the austenite range.…”

Section: Introductionmentioning

confidence: 99%

Gas Nitriding Comparison of Austenitic and Martensitic Stainless Steels

Welch

2019

Heat Treat 2019: Proceedings From the 30th Heat Treating Society Conference and Exposition

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The heat treatment method of gas nitriding is proving to be a viable option as a low temperature case hardening process for a variety of stainless steels used in numerous applications. A comparison between an austenitic stainless steel, grade 304, and a martensitic stainless steel, grade 410 in the hardened and non-hardened conditions is used to show the differences in properties obtained as a result of gas nitride process adjustments. The achieved properties, compound layer thickness, hardness, and porosity level along with the measured depth of hardening, can be used to determine which material will be the best option depending on the application.

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Correlation between microstructure and micro-hardness of 316L nitrided austenitic stainless steel

Hussain

Mahmoud

Basha

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper presents the effect of duration of solution nitriding towards microstructure and microhardness of AISI 316L stainless steel. The AISI 316L stainless steel was exposed to high temperature gas nitriding process at 1200 °C by using 50% ammonia gas and 50% nitrogen gas for different durations of 8, 15 and 20 hours. The nitrided austenitic stainless steel then underwent several analyses and tests to find the effect of different durations of nitriding towards its microstructures and microhardness. From the experiments conducted to the nitrided samples, it was found that the higher duration of nitriding resulted in the increase of microhardness of the samples due to the increase of nitrogen content in the stainless steel. However, there was no effect found on the microstructure of the nitrided samples. It was noted that the highest hardness was obtained from the nitrided sample of 20 hours that has 245.1 HV which is about 70% higher than the as-received sample.

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Effective Duration of Gas Nitriding Process on AISI 316L for the Formation of a Desired Thickness of Surface Nitrided Layer

Cited by 3 publications

References 11 publications

Microstructure, Mechanical and Tribological Behaviour of Aisi 316l Stainless Steel During Salt Bath Nitriding

Microstructure, Mechanical and Tribological Behaviour of Aisi 316l Stainless Steel During Salt Bath Nitriding

Gas Nitriding Comparison of Austenitic and Martensitic Stainless Steels

Correlation between microstructure and micro-hardness of 316L nitrided austenitic stainless steel

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