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Tribology of nitrided-coated steel-a review

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Surface engineering such as surface treatment, coating, and surface modification are employed to increase surface hardness, minimize adhesion, and hence, to reduce friction and improve resistance to wear. To have optimal tribological performance of Physical Vapor Deposition (PVD) hard coating to the substrate materials, pretreatment of the substrate materials is always advisable to avoid plastic deformation of the substrate, which may result in eventual coating failure. The surface treatment results in hardening of the substrate and increase in load support effect. Many approaches aim to improve the adhesion of the coatings onto the substrate and nitriding is the one of the best suitable options for the same. In addition to tribological properties, nitriding leads to improved corrosion resistance. Often corrosion resistance is better than that obtainable with other surface engineering processes such as hard-chrome and nickel plating. Ability of this layer to withstand thermal stresses gives stability which extends the surface life of tools and other components exposed to heat. Most importantly, the nitrogen picked-up by the diffusion layer increases the rotating-bending fatigue strength in components. The present article reviews mainly the tribological advancement of different nitrided-coated steels based on the types of coatings, structure, and the tribo-testing parameters, in recent years.
Rocznik
Tom
Strony
50--57
Opis fizyczny
Bibliogr. 16 poz., fig., tab.
Twórcy
  • Research Scholar, AVCOE, Mechanical Engineering Department, Sanjivani College of Engineering, Kopargaon - 423603, Savitribai Phule Pune University, MS, India
autor
  • S.N.D. College of Engineering and Research Center, Yeola - 423401, Savitribai Phule Pune University, MS, India
Bibliografia
  • [1] Zeghni A., Hashmi M., The effect of coating and nitriding on the wear behaviour of tool steels, Journal of Materials Processing Technology 155-156 (2004) 1918-1922.
  • [2] Podgornik B., Vizintin J., Wanstrand O., Larssons M., Hogmark S., Ronkainen H., Holmberg K., Tribological properties of plasma nitrided and hard coated AISI 4140 steel, Wear 249 (2001) 254-259.
  • [3] Devaraju A., Elaya Perumal A., Alphonsa J., Kailas S., Venugopal S., Sliding wear behavior of plasma nitride Austenitic Stainless Steel Type AISI 316LN in the temperature range from 25 to 400 oC at 10−4 bar, Wear 288 (2012) 17-26.
  • [4] Nickel J., Shuaib A., Yilbas B., Nizam S., Evaluation of the wear of plasma-nitrided and TiN-coated HSS drills using conventional and Micro-PIXE techniques, Wear 239 (2000)155-167.
  • [5] Staia M., Perez-Delgado Y., Sanchez C., Castro A., Le Bourhis E., Cabrera E., Hardness properties and high-temperature wear behavior of nitrided AISI D2 tool steel prior and after PAPVD coating, Wear 267 (2009) 1452-1461.
  • [6] Yildiz F., Yetim A., Alsaran A., Celik A., Kaymaz I., Fretting fatigue properties of plasma nitrided AISI 316L stainless steel: Experiments and finite element analysis, Tribology International 44 (2011) 1979-1986.
  • [7] Yilbas B., Nizam S., Wear behavior of TiN coated AISI H11 and AISI M7 twist drills prior to plasma nitriding, Journal of Materials Processing Technology 105 (2000) 352-358.
  • [8] Alpaslan O., Atar E., Cimenoglu H., Tribological Behavior of Duplex Treated AISI 4140 Steel, International Iron & Steel Symposium (2012) 264-268.
  • [9] Holleck H., Material Selection for Hard Coatings, Journal of Vacuum Science Technology (1986) 2661-2669.
  • [10] Luo D., Fridrici V., Kapsa P., A Systematic Approach for the Selection of Tribological Coatings, Wear 271 (2011) 2132-2143.
  • [11] Zhang J., Lu L., Shiozawa K., Zhou W., Zhang W., Effect of nitrocarburizing and post-oxidation on fatigue behavior of 35CrMo alloy steel in very high cycle fatigue regime, International Journal of Fatigue 33 (2011) 880-886.
  • [12] Zhang J., Lu L., Shiozawa K., Cui G., Zhang W., Fatigue properties of oxynitrocarburized medium carbon railway axle steel in very high cycle regime, International Journal of Fatigue 32 (2010) 1805-1811.
  • [13] Abdalla A., Baggio-Scheid V., Baptista C., Barbosa M., Fatigue Life Changing in Rolled Carbon Steel after Plasma Thermochemical Treatments, Procedia Engineering 2 (2010)1653-1661.
  • [14] VDI 3198:1992-08. Coating (CVD, PVD) of Cold Forging Tools. VDI-Verlag, (1991) Dusseldorf.
  • [15] Vidakis N., Antoniadis A., & Bilalis N., The VDI 3198 indentation test evaluation of a reliable qualitative control for layered compounds, Journal of Materials Processing Technology 143-144 (2003) 481-485.
  • [16] Bartkowska A., Przestacki D., Chwalczuk T., Microstructure, phase composition and corrosion resistance of Ni2O3 coatings produced using laser alloying method, Archives of Mechanical Technology
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bb5d1204-33b5-4903-9ca7-c36be6b8a7c1
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