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Print

2011 №08 (04) 2011 №08 (06)

The Paton Welding Journal 2011 #08
TPWJ, 2011, #8, 12-16 pages
 
EFFECT OF MANGANESE ON STRUCTURE AND WEAR RESISTANCE OF DEPOSITED METAL OF THE LOW-CARBON STEEL TYPE


Journal                    The Paton Welding Journal
Publisher                 International Association «Welding»
ISSN                       0957-798X (print)
Issue                       № 8, 2011 (August)
Pages                      12-16
 
 
Authors
V.L. MALINOV

Priazovsky State Technical University, Mariupol, Ukraine
 
 
Abstract
Investigation results are presented on structure and wear resistance of metal deposited by using flux-cored strips and having chemical composition of the low-carbon steel type with differing manganese content. The possibility of improving wear resistance of the deposited metal due to subsequent heat and thermochemical treatments is studied. It is shown that achievement of the optimal amount of meta-stable austenite in structure leads to improvement of wear resistance of the deposited metal.
 
 
Keywords: arc cladding, flux-cored strips, deposited metal, structure, martensite, austenite, bainite, strengthening, tempering, case-hardening
 
 
Received:                ??.??.??
Published:               28.08.11
 
 
References
1. Malinov, V.L. (2006) Sparsely alloyed consumables providing in the deposited metal deformation hardening in operation. The Paton Welding J., 8, 25-28.
2. Tarasenko, V.V., Khomenko, G.V., Titarenko, V.I. et al. (2006) Experience of joint works of OJSC «Zaporozhstal» and PP «Remmash» in development and application of new surfacing materials. In: Proc. of 2nd Sci.-Pract. Conf. on Improvement and Reequipment of Enterprises. Efficient Technologies of Repair and Recovery of Parts. (Dnepropetrovsk, 2006), 39-43.
3. Bogachev, I.N., Mints, R.I. (1972) Cavitation fractures and cavitation-resistant alloys. Moscow: Metallurgiya.
4. Malinov, L.S., Malinov, V.L. (2007) Sparsely doped alloys with martensitic transformations and strengthening technologies. Kharkov: KhFTI.
5. Bogachev, I.N., Egolaev, V.F. (1973) Structure and properties of iron-manganese alloys. Moscow: Metallurgiya.
6. Litvinov, V.S. (1979) Structure and stability of phases with high contact resistance: Syn. of Thesis for Dr. of Techn. Sci. Degree. Sverdlovsk: S.M. Kirov UPI.
7. Malinov, L.S., Malinov, V.L. Method of strengthening. Pat. 63462 Ukraine. Int. Cl. C21 D1/2. Publ. 15.01.2004.