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Abstrakty
In this study, wear properties of FeW-B4C coatings produced by tungsten inert gas (TIG) process on the AISI 1060 steel were investigated. TIG process was selected because it is a cost-effective approach for melting-based coatings. The treated surfaces were evaluated and characterized by means of scanning electron microscope (SEM), X-ray diffraction analysis, and electron dispersive spectrometry (EDS). The microhardness and wear experiment were also performed by using a microhardness machine and ball-on-disk tribometer. SEM observations showed that the obtained coating had a smooth and uniform surface. According to XRD analysis, borides and carbides phases formed in the coatings. The wear behavior of the coatings was compared with ball-on-disc configuration wear tests, at the same conditions. Average coefficient of friction values of the coatings were obtained at relatively low levels.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
2001--2006
Opis fizyczny
Bibliogr. 24 poz., rys., tab., wykr.
Twórcy
autor
- Kastamonu University, Faculty of Engineering and Architecture, Department of Materials Science and Nanotechnology Engineering, 37000 Kastamonu, Turkey
Bibliografia
- [1] X. B. Liu, Y. J. Gu, Materials Letters 60, 5, 577 (2006).
- [2] W. Pang, H. C.Man, T. M. Yue, Materials Science and Engineering A 390, 144 (2005).
- [3] S. Islak, Ö. Eski, S. Buytoz, M. Karagöz, J. Stokes, Materials Testing 54, 11-12, 793 (2012).
- [4] S. Islak, M. M. Yıldırım, e-Journal of New World Sciences Academy 4, 2, 227 (2009).
- [5] R. Yazdi, S. F. Kashani-Bozorg, Materials Chemistry and Physics 152, 147 (2015).
- [6] M. M. Yildirim, S. Buytoz, S. Islak, Proceedings of 11th International Materials Symposium, Denizli-Turkey, 258 (2006).
- [7] B. Lotfi, M. Rostami, Z. Sadeghian, Transactions of Nonferrous Metals Society of China 24, 9, 2824 (2014).
- [8] S. Lu, O. Kwon, Y. Guo, Wear 254, 421 (2003).
- [9] B. Lou, Z. Chen, W. Bai, G. Dong, Transactions of Nonferrous Metals Society of China 16, 643 (2006).
- [10] R. Sathiskumar, N. Murugan, I. Dinaharan, S.J. Vijay, Archives of Metallurgy and Materials 59, 1, 83 (2014).
- [11] M. Chao, X. Niu, B. Yuan, E. Liang, D. Wang, Surface and Coatings Technology 201, 1102 (2006).
- [12] S. Buytoz, M. Ulutan, B. Kurt, S. Islak, İ. Somunkıran, e-Journal of New World Sciences Academy 5, 1, 35 (2010).
- [13] S. W. Huang, M. Samandi, M. Brandt, Wear 256, 1095 (2004).
- [14] M. A. Maleque, B. A. Ghazal, M. Y. Ali, M. Hayyan, A. S. Ahmed, International Conference on Functional Materials and Metallurgy, ICoFM 2014, 17 (2014)
- [15] B. Du, Z. Zou, X. Wang, S. Qu, Applied Surface Science 254, 6489 (2008).
- [16] G. Sun, Y. Zhang, C. Liu, K. Luo, X. Tao, P. Li, Materials & Design 31, 2737 (2010).
- [17] Y. P. Kathuria, Surface and Coatings Technology 140, 195 (2001).
- [18] W. Xibao, Applied Surface Science 252, 2021 (2005).
- [19] W. Rafainello, M. Srivinasan, Non-Oxide Materials: Applications and Engineering, in Carbide, Nitride, and Boride Materials Synthesis and Processing, Chapman-Hall, London, (1997).
- [20] M. T. Spohn, Minerals Review 6, 113 (1994).
- [21] H. O. Pierson, Handbook of Refractory Carbides and Nitrides, William Andrew Pub., Noyes, (1996).
- [22] P. Villars, A. Prince, H. Okamoto, Handbook of Ternary Alloy Phase Diagrams, ASM International, Materials Park, OH, (1995).
- [23] E. B. Clark, B. Roebuck, International Journal of Refractory Metals and Hard Materials 11, 23 (1992).
- [24] G. B. V. Kumar, C. S. P. Rao, N. Selvaraj, Journal of Minerals & Materials Characterization & Engineering 10, 1, 59 (2011).
Uwagi
PL
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-33e8b32a-517b-4265-b466-2624a707280d