You are here

AZ ALAŞIMLI ÇELİKLERDE KARBON MİKTARININ PLAZMA NİTRÜRASYONU DAVRANIŞINA ETKİSİ

EFFECT OF CARBON CONTENT ON THE PLASMA NITRIDING BEHAVIOR OF LOW-ALLOY STEELS

Journal Name:

Publication Year:

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
Structural properties of plasma-nitrided 16MnCr5 and 50CrV4 low-alloy steels were investigated using microscopy techniques, X-ray diffraction and microhardness measurements. Carbon content is the most important differance between chemical compositions of these steels. This study aims to investigate the effecf of carbon content on the microstructural and mechanical properties of the case hardened materials.
Abstract (Original Language): 
Plazma nitrürasyonu ile çeşitli parametreler kullanılarak yüzeyi sertleştirilen, az alaşımlı 16MnCr5 ve 50CrV4 çeliklerinin yapısal özellikleri; mikroskobi teknikleri, X-ışını difraksiyonu ve mikrosertlik ölçümleri kullanılarak incelenmiştir. Kimyasal bileşimleri açısından aralarındaki en büyük fark içerdikleri karbon miktarı olan bu çeliklerin incelenmesiyle, karbon miktarının yüzey sertleştirme işlemi ile oluşan iç yapıya ve mekanik özelliklere etkilerinin araştırılması hedeflenmiştir.
47-52

REFERENCES

References: 

Alsaran A., Çelik A. (2001): “Structural Characterization of Ion-Nitrided AISI 5140 Low-
Alloy Steel”, Materials Characterization, 47, 207-213.
Alsaran A., Karakan M., Çelik A. (2002): “The Investigation of Mechanical Properties of Ion-
Nitrided AISI 5140 Low-Alloy Steel”, Materials Characterization, 48, 323-327.
Çelik A., Efeoğlu İ., Sakar G. (2001): “Microstructure and Structural Behavior of Ion-
Nitrided AISI 8620 Steel”, Materials Characterization, 46, 39-44.
Edenhofer B. (1974): “Physical and Metallurgical Aspects of Ionitriding-Part2”, Heat
Treatment of Metals, V. 1, p. 23-28.
Edenhofer B. (1976): “The Ionitriding Process-Thermochemical Treatment of Steel and Cast
Iron Materials”, The Metallurgist and Materials Technologist, V. 8, p. 421-426.
Grun R., Gunther H.J. (1991): ”Plasma-nitriding in Industry-problem, New Solutions and
Limits”, Mater. Sci.Eng. A 140 435-441.
Haruman E., Bell T., Sun Y. (1992): “Compound Layer Characteristics Resulting From
Plasma Nitrocarburising in Atmospheres Containing Carbon Dioxide Gas Additions”,
Surface Engineering, Vol. 8, No. 4, 275-282.
Hombeck F., Bell T. (1991): “Enviromentally Harmless Plasma Thermochemical Processes”,
Surface Engineering, V. 7(1), p.45-52.
Karamış M.B. (1992): “Some Effecs of the Plasma Nitriding Process on Layer Properties”,
Thin Solid Films, V. 217, p.38-47.
Karaoğlu S. (2003): “Structural Characterization and Wear Behavior of Plasma-Nitrided AISI
5140 Low-Alloy Steel”, Materials Characterization, 49, 349-357.
Lampe T., Eisenberg S., Laudien G. (1993): “Compound Layer Formation During Plasma
Nitriding and Plasma Nitrocarburising”, Surface Engineering, Vol. 9, No. 1, 69-76.
Rie K.T., Broszeit E. (1995): “Plasma Diffusion Treatment and Duplex Treatment-Recent
Development and New Applications”, Surf.Coatings Technol., 76-77, 425-436.
Sun Y., Bell T. (1991): “Plasma Surface Engineering of Low Alloy Steel”, Mater. Sci. and
Eng., V.A 140, p. 419-434.

Thank you for copying data from http://www.arastirmax.com