The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS

The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS

Austenitic stainless steel is the most commonly used material in the production of orthopedic prostheses. In this study, AISI 430 SS (0.12 wt. % C; 1 wt. % Si; 1 wt. % Mn; 18 wt. % Cr; 0.04 wt. % P and 0.03 wt. % S) will be modified by creating austenite and removing its ferromagnetic properties via...

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Main Authors: Ika Kartika, Kevin Kurnia, Galih Senopati, Joko Triwardono, Bambang Hermanto, Fendy Rokhmanto, Made Subekti Dwijaya, Alfirano Alfirano
Format: Article
Language:English
Published: PC Technology Center 2021-08-01
Series:Eastern-European Journal of Enterprise Technologies
Subjects:
aisi 430 ss
austenite
high-temperature gas nitriding
cold rolling
nitrogen layer
Online Access:http://journals.uran.ua/eejet/article/view/234174
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spelling doaj-354433de48124c9383bb31a86539eb5c2021-08-28T12:54:34ZengPC Technology CenterEastern-European Journal of Enterprise Technologies1729-37741729-40612021-08-01412(112)253210.15587/1729-4061.2021.234174271835The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SSIka Kartika0https://orcid.org/0000-0002-9105-4033Kevin Kurnia1https://orcid.org/0000-0001-9334-618XGalih Senopati2https://orcid.org/0000-0001-8202-5778Joko Triwardono3https://orcid.org/0000-0001-8431-8494Bambang Hermanto4https://orcid.org/0000-0001-6284-2332Fendy Rokhmanto5https://orcid.org/0000-0003-4565-5804Made Subekti Dwijaya6https://orcid.org/0000-0003-0195-7157Alfirano Alfirano7https://orcid.org/0000-0002-0275-7643Indonesian Institute of Sciences (LIPI)Sultan Ageng Tirtayasa UniversityIndonesian Institute of Sciences (LIPI)Indonesian Institute of Sciences (LIPI)Indonesian Institute of Sciences (LIPI)Indonesian Institute of Sciences (LIPI)Indonesian Institute of Sciences (LIPI)Sultan Ageng Tirtayasa UniversityAustenitic stainless steel is the most commonly used material in the production of orthopedic prostheses. In this study, AISI 430 SS (0.12 wt. % C; 1 wt. % Si; 1 wt. % Mn; 18 wt. % Cr; 0.04 wt. % P and 0.03 wt. % S) will be modified by creating austenite and removing its ferromagnetic properties via the high-temperature gas nitriding process. Cold rolling with various percentage reduction (30, 50, and 70 %) was followed by gas nitriding at a temperature of 1200 °C with holding times of 5, 7, and 9 hours, then quenching in water was carried out on as-annealed AISI 430 SS. The formation of the austenite phase was examined by XRD (x-ray diffraction). The microstructure and element dispersion were observed using SEM-EDS (scanning electron microscope-energy dispersive spectrometry), whereas the mechanical properties after gas nitriding and water quenching were determined by Vickers microhardness testing. At all stages of the gas nitriding process, the FCC iron indicated the austenite phase was visible on the alloy's surface, although the ferrite phase is still present. The intensity of austenite formation is produced by cold rolling 70 % reduction with a 5-hour gas nitriding time. Furthermore, the nitrogen layer was formed with a maximum thickness layer of approximately 3.14 µm after a 50 % reduction in cold rolling and 9 hours of gas nitriding process followed by water quenching. The hardness reached 600 HVN in this condition. This is due to the distribution of carbon that is concentrated on the surface. As the percent reduction in the cold rolling process increases, the strength of AISI 430 SS after gas nitriding can increase, causing an increase in the number of dislocations. The highest tensile strength and hardness of AISI 430 SS of 669 MPa and 271.83 HVN were obtained with a reduction of 70 %.http://journals.uran.ua/eejet/article/view/234174aisi 430 ssaustenitehigh-temperature gas nitridingcold rollingnitrogen layer
collection DOAJ
language English
format Article
sources DOAJ
author Ika Kartika
Kevin Kurnia
Galih Senopati
Joko Triwardono
Bambang Hermanto
Fendy Rokhmanto
Made Subekti Dwijaya
Alfirano Alfirano
spellingShingle Ika Kartika
Kevin Kurnia
Galih Senopati
Joko Triwardono
Bambang Hermanto
Fendy Rokhmanto
Made Subekti Dwijaya
Alfirano Alfirano
The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
Eastern-European Journal of Enterprise Technologies
aisi 430 ss
austenite
high-temperature gas nitriding
cold rolling
nitrogen layer
author_facet Ika Kartika
Kevin Kurnia
Galih Senopati
Joko Triwardono
Bambang Hermanto
Fendy Rokhmanto
Made Subekti Dwijaya
Alfirano Alfirano
author_sort Ika Kartika
title The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
title_short The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
title_full The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
title_fullStr The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
title_full_unstemmed The effect of cold rolling and high-temperature gas nitriding on austenite phase formation in AISI 430 SS
title_sort effect of cold rolling and high-temperature gas nitriding on austenite phase formation in aisi 430 ss
publisher PC Technology Center
series Eastern-European Journal of Enterprise Technologies
issn 1729-3774
1729-4061
publishDate 2021-08-01
description Austenitic stainless steel is the most commonly used material in the production of orthopedic prostheses. In this study, AISI 430 SS (0.12 wt. % C; 1 wt. % Si; 1 wt. % Mn; 18 wt. % Cr; 0.04 wt. % P and 0.03 wt. % S) will be modified by creating austenite and removing its ferromagnetic properties via the high-temperature gas nitriding process. Cold rolling with various percentage reduction (30, 50, and 70 %) was followed by gas nitriding at a temperature of 1200 °C with holding times of 5, 7, and 9 hours, then quenching in water was carried out on as-annealed AISI 430 SS. The formation of the austenite phase was examined by XRD (x-ray diffraction). The microstructure and element dispersion were observed using SEM-EDS (scanning electron microscope-energy dispersive spectrometry), whereas the mechanical properties after gas nitriding and water quenching were determined by Vickers microhardness testing. At all stages of the gas nitriding process, the FCC iron indicated the austenite phase was visible on the alloy's surface, although the ferrite phase is still present. The intensity of austenite formation is produced by cold rolling 70 % reduction with a 5-hour gas nitriding time. Furthermore, the nitrogen layer was formed with a maximum thickness layer of approximately 3.14 µm after a 50 % reduction in cold rolling and 9 hours of gas nitriding process followed by water quenching. The hardness reached 600 HVN in this condition. This is due to the distribution of carbon that is concentrated on the surface. As the percent reduction in the cold rolling process increases, the strength of AISI 430 SS after gas nitriding can increase, causing an increase in the number of dislocations. The highest tensile strength and hardness of AISI 430 SS of 669 MPa and 271.83 HVN were obtained with a reduction of 70 %.
topic aisi 430 ss
austenite
high-temperature gas nitriding
cold rolling
nitrogen layer
url http://journals.uran.ua/eejet/article/view/234174
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