The Paton Welding Journal, 2004, №12

2004 №12 (08)

2004 №12 (01)

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The Paton Welding Journal, 2004, #12, 53-54 pages

Wear resistance of deposited metal with increased share of titanium carbides

V.N. Kalianov, A.N. Petrenko

Kharkov Ukrainian Engineering Pedagogical Academy, Kharkov, Ukraine

Abstract
The paper gives the results of laboratory studies of wear resistance and technological strength of three types of deposited metal (boron-titanium, austenite-martensite and martensite-austenite). It is shown that steels with a high content of metastable austenite, strengthened by dispersed precipitation of titanium carbides, have the best complex of properties.
Keywords: abrasive wear resistance, carbide phase, titanium carbide, technological strength, self-shielding flux-cored wire, borontitanium deposited metal, metastable austenite

References

1. Ryabtsev, I.A., Kondratiev, I.A., Vasiliev, V.G. et al. (2002) Wear resistance of deposited metal of Fe-C-Cr-Tl-Mo alloying system. The Paton Welding J., 4, 45–48.
2. Danilchenko, B.V. (1992) Resistance of deposited metal designed for service in abrasive wear conditions. Svarochn. Proizvodstvo, 4, 31–33.
3. Kalianov, V.N., Muratov, V.A., Pocheptsov, A.V. (1970) Heat resistance and wear resistance of ooron-titanium deposited metal, Ibid., 6, 21–23.
4. Kalianov, V.N. (1997) Structure and characteristics of wearresistant sparsely-alloyed deposited metal. Ibid., 4, 13–17.
5. Kalianov, V.N., Petrenko, A.N. (2004) Wear-resistant deposited metal of system C-B-T1-N1. In: Visnyk KhDTUSG. Issue 26.
6. Guk, V.A. (2000) Materials and technology for surfacing of machine parts operating under conditions of impact-abrasive wear. The Paton Welding J., 8, 11–13.
7. Kalianov, V.P., Bagrov, V.A. (1998) Weldability of deposited martensitic steels with tool steels. Svarochn. Proizvod¬stvo, 4, 14-15.

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Suggested Citation

V.N. Kalianov, A.N. Petrenko (2004) Wear resistance of deposited metal with increased share of titanium carbides. The Paton Welding J., 12, 53-54.

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