| 2015 №06 (18) |
DOI of Article 10.15407/tpwj2015.06.19 |
2015 №06 (20) |
The Paton Welding Journal, 2015, #5-6, 87-89 pages
Structure and properties of metal deposited by flux-cored wire with charge of used metal-abrasive wastes
I.P. Lentyugov And I.A. Ryabtsev
E.O. Paton Electric Welding Institute, NASU. 11 Bozhenko Str., 03680, Kiev, Ukraine. E-mail: office@paton.kiev.ua
Abstract
The technology of recycling the grinding wastes of metal cutting tool was developed using electroslag remelting, allowing producing a master alloy of the certain chemical composition. The structure and wear resistance of metal of the similar chemical composition deposited using two pilot flux-cored wires was investigated. A charge of one of the wires was prepared of the master alloy produced after wastes recycling, a charge of the second one was prepared of the appropriate ferroalloys. The investigations showed that the metal deposited using both flux-cored wires had similar structures and approximately the same wear resistance. It was established that the master alloy produced by utilization of grinding wastes production can be successfully used as a charge in surfacing flux-cored wires. 4 Ref., 3 Tables, 3 Figures.
Keywords: metal-abrasive wastes, wastes recycling, flux-cored wires, surfacing materials, structure of deposited metal, wear resistance
Received: 10.04.15
Published: 28.07.15
References
1. Kiparisov, S.S., Padalko, O.V. (1993) Resource-saving and natural potential of powder materials and technologies: Realization in the field of secondary resource processing. Poroshk. Metallurgiya, 6, 1-4.
2. Gabrielov, I.P., Kerzhentseva, L.F. (1985) Properties of powder made from metal-abrasive waste of high-speed steel. Ibid., 9, 133-136.
3. Lentyugov, I.P., Ryabtsev, I.A., Kuzmenko, O.G. et al. (2008) Metal-abrasive grinding wastes, methods of their processing and experience of application in surfacing materials. The Paton Welding J., 9, 34-38.
4. Ryabtsev, I.I., Chernyak, Ya.P., Osin, V.V. (2004) Block-modular unit for testing of deposited metal. Svarshchik, 1, 18-20.
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