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Article citations


Fedosov, S.A., Lomonosov, M.V. and Peshek, L. (2004) Determination of Mechanical Properties of Materials by Means of Micro Indenting. Moscow State University, Moscow, 98.

has been cited by the following article:

  • TITLE: Metal-Ceramic Smart Composite in Ti(C,N)-Ni-Mo-W System

    AUTHORS: Z. Kovziridze, N. Nizharadze, G. Tabatadze, E. Nikoleishvili, M. Mshvildadze

    KEYWORDS: Metal-Ceramic, Composite, Cutting Material, High-Temperature, Heatproof, Micro Hardness

    JOURNAL NAME: Journal of Electronics Cooling and Thermal Control, Vol.6 No.2, June 7, 2016

    ABSTRACT: Goal: Low wolfram-containing cutting composite was obtained by fusion of titanium carbonitride and high melting temperature binding metallic phase. Method: The composite was obtained via compaction and further sintering in vacuum furnace at 1600°C under 10-3 Pa pressure. Phase analysis was performed on X-ray apparatus “DRON-3”; microstructure was determined by electron microscope NANOLAB-7, microhardness by MUCKE-mark microhardness meter; relative resistance of cutters was evaluated at similar modes of cutting according to distances they passed; experiments were carried out on turning lathe. Results: Physical-mechanical characteristics of the obtained composite are: σbend, = 1000 - 1150 MPa, σbend1000°C = 600 MPa, HV = 14 GPa; HV1000°C = 6.5 GPa. High speeds of cutting and high temperatures resistance of cutters made by the obtained composites exceeds 1.5 - 2-folds that of cutters made of the known BK8 and KNT20 hard alloys. Conclusion: Its application is recommended in hot steel treatment by cutting, for removal of the so-called burrs, as well as in steel treatment by cutting during pure and semi-pure operations. It can also be used in jet engines, chemical industry apparatuses, electric-vacuum devices, in industry of responsible details of rockets, nuclear reactors, flying apparatuses.