γN-shift as a function of N2 content in AISI 304 nitriding

R. Valencia-Alvarado; A. de la Piedad-Beneitez; J. de la Rosa-Vázquez; R. López-Callejas; S. R. Barocio; O. G. Godoy-Cabrera; A. Mercado-Cabrera; R. Peña-Eguiluz; A. E. Muñoz-Castro

doi:10.1016/j.vacuum.2007.04.020

γ_N-shift as a function of N₂ content in AISI 304 nitriding

R. Valencia-Alvarado, A. de la Piedad-Beneitez, J. de la Rosa-Vázquez, R. López-Callejas, S. R. Barocio, O. G. Godoy-Cabrera, A. Mercado-Cabrera, R. Peña-Eguiluz, A. E. Muñoz-Castro

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5 Citas (Scopus)

Resumen

We present in this work some experimental results obtained from nitriding AISI 304 stainless steel at different temperatures by means of RF/DC generated 10¹⁵ m^-3 density plasmas in the 1-4 eV electron temperature range. The samples were biased up to -400 V. Substrate temperatures have proved to be an influential factor in the diffusion of the ions impinging onto the material under treatment. In turn, the γ_N shift expansion observed by XRD during this temperature increase is a function of the amount of nitrogen introduced to the sample and is related to the bias, the nitrided layer depth and the plasma characteristics. Thus, we have identified the substrate temperature as a global control variable in order to analyse the evolution of the nitrogen enrichment process through its influence on the X-ray diffraction imaging of the γ_N shift in the samples. The optimization of the temperature is explored along with its limits in terms of the Cr precipitation threshold.

Idioma original	Inglés
Páginas (desde-hasta)	1434-1438
Número de páginas	5
Publicación	Vacuum
Volumen	81
N.º	11-12
DOI	https://doi.org/10.1016/j.vacuum.2007.04.020
Estado	Publicada - 28 ago. 2007
Publicado de forma externa	Sí

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@article{492ad7b3375e4746997b568947e7975b,

title = "γN-shift as a function of N2 content in AISI 304 nitriding",

abstract = "We present in this work some experimental results obtained from nitriding AISI 304 stainless steel at different temperatures by means of RF/DC generated 1015 m-3 density plasmas in the 1-4 eV electron temperature range. The samples were biased up to -400 V. Substrate temperatures have proved to be an influential factor in the diffusion of the ions impinging onto the material under treatment. In turn, the γN shift expansion observed by XRD during this temperature increase is a function of the amount of nitrogen introduced to the sample and is related to the bias, the nitrided layer depth and the plasma characteristics. Thus, we have identified the substrate temperature as a global control variable in order to analyse the evolution of the nitrogen enrichment process through its influence on the X-ray diffraction imaging of the γN shift in the samples. The optimization of the temperature is explored along with its limits in terms of the Cr precipitation threshold.",

keywords = "CrN, Nitriding stainless steel, Plasma processing",

author = "R. Valencia-Alvarado and {de la Piedad-Beneitez}, A. and {de la Rosa-V{\'a}zquez}, J. and R. L{\'o}pez-Callejas and Barocio, {S. R.} and Godoy-Cabrera, {O. G.} and A. Mercado-Cabrera and R. Pe{\~n}a-Eguiluz and Mu{\~n}oz-Castro, {A. E.}",

note = "Funding Information: This project has been partially funded in Mexico by CONACyT, SEMARNAT and DGEST. The technical support from Mar{\'i}a Teresa Torres M, Pedro {\'A}ngeles and Isa{\'i}as Contreras is highly appreciated.",

year = "2007",

month = aug,

day = "28",

doi = "10.1016/j.vacuum.2007.04.020",

language = "Ingl{\'e}s",

volume = "81",

pages = "1434--1438",

journal = "Vacuum",

issn = "0042-207X",

number = "11-12",

}

TY - JOUR

T1 - γN-shift as a function of N2 content in AISI 304 nitriding

AU - Valencia-Alvarado, R.

AU - de la Piedad-Beneitez, A.

AU - de la Rosa-Vázquez, J.

AU - López-Callejas, R.

AU - Barocio, S. R.

AU - Godoy-Cabrera, O. G.

AU - Mercado-Cabrera, A.

AU - Peña-Eguiluz, R.

AU - Muñoz-Castro, A. E.

N1 - Funding Information: This project has been partially funded in Mexico by CONACyT, SEMARNAT and DGEST. The technical support from María Teresa Torres M, Pedro Ángeles and Isaías Contreras is highly appreciated.

PY - 2007/8/28

Y1 - 2007/8/28

N2 - We present in this work some experimental results obtained from nitriding AISI 304 stainless steel at different temperatures by means of RF/DC generated 1015 m-3 density plasmas in the 1-4 eV electron temperature range. The samples were biased up to -400 V. Substrate temperatures have proved to be an influential factor in the diffusion of the ions impinging onto the material under treatment. In turn, the γN shift expansion observed by XRD during this temperature increase is a function of the amount of nitrogen introduced to the sample and is related to the bias, the nitrided layer depth and the plasma characteristics. Thus, we have identified the substrate temperature as a global control variable in order to analyse the evolution of the nitrogen enrichment process through its influence on the X-ray diffraction imaging of the γN shift in the samples. The optimization of the temperature is explored along with its limits in terms of the Cr precipitation threshold.

AB - We present in this work some experimental results obtained from nitriding AISI 304 stainless steel at different temperatures by means of RF/DC generated 1015 m-3 density plasmas in the 1-4 eV electron temperature range. The samples were biased up to -400 V. Substrate temperatures have proved to be an influential factor in the diffusion of the ions impinging onto the material under treatment. In turn, the γN shift expansion observed by XRD during this temperature increase is a function of the amount of nitrogen introduced to the sample and is related to the bias, the nitrided layer depth and the plasma characteristics. Thus, we have identified the substrate temperature as a global control variable in order to analyse the evolution of the nitrogen enrichment process through its influence on the X-ray diffraction imaging of the γN shift in the samples. The optimization of the temperature is explored along with its limits in terms of the Cr precipitation threshold.

KW - CrN

KW - Nitriding stainless steel

KW - Plasma processing

UR - http://www.scopus.com/inward/record.url?scp=34547939915&partnerID=8YFLogxK

U2 - 10.1016/j.vacuum.2007.04.020

DO - 10.1016/j.vacuum.2007.04.020

M3 - Artículo

SN - 0042-207X

VL - 81

SP - 1434

EP - 1438

JO - Vacuum

JF - Vacuum

IS - 11-12

ER -