References
- Ettmayer P: ‘Hardmetals and cermets’, Annu. Rev. Mater. Sci., 1989, 19, 145–164.
- Bastian S, Busch W, Kuhnel D, Springer A, Meissner T, Holke R, Scholz S, Iwe M, Pompe W, Gelinsky M, Pottho A, Richter V, Ikonomidou C, Schirmer K: ‘Toxicity of tungsten carbide and cobalt-doped tungsten carbide nanoparticles in mammalian cells in vitro’, Environ. Health Perspect., 2009, 117, (4), 530–536.
- Prakash L: ‘Weiterenwinklung von Wolframcarbide Hartmetallen unter Verwendung von Eisen-Basis-Binderlegierungen’, Dissertation, 2984, Kernforschungszentrum Karlsruhe, Institut für Material- und Festkörperforschung, Karlsruhe, Germany, 1980.
- Prakash L: ‘A review of the properties of tungsten carbide hardmetals with alternative binder systems’, Reutte, 1993, 2, 80–109.
- Holleck H: ‘Ternäre Carbidsysteme mit Mangan, Eisen und Nickel und deren Bedeutung für Verschleißfeste Werkstoffe’, Metall, 1985, 39, (7), 634–645.
- Fernandez Guillermet A: ‘The Co–Fe–Ni–W–C phasediagram. A thermodynamic description and calculated sections for (Co–Fe–Ni) bonded cemented WC tools’, Z. Metallkd, 1989, 80, 83–94.
- Gries B: ‘Selection criteria of Fe containing hardmetal binders for metal cutting tools’, Proc. Conf. Euro PM2009: ‘PM tool materials – hard materials III’, Copenhagen, Denmark, October 2009.
- Prakash L: ‘Aufbau, Herstellung und Eigenschaften Hochschmelzender Verbindungen und Systeme (Hartstoffe und Hartmetalle): Bericht über Arbeiten in den Jahren 1980–1982’, KfK 3374 B, Kernforschungszentrum Karlsruhe, Institut für Material- und Festkörperforschung, Karlsruhe, Germany, 1983.
- Hanyaloglu C: ‘Production and indentation analysis of WC/Fe–Mn as an alternative to cobalt-bonded hard metals’, Mater. Charact., 2001, 47, 315–322.
- Siemiasko D: ‘Cemented carbides with a nontoxic Fe–Mn binder’, Proc. Conf. Euro PM2009: ‘PM tool materials – hard materials III’, Copenhagen, Denmark, October 2009. Vol.1, p.253–258.
- Grassel O, Kruger L, Frommeyer G, Meyer LW: ‘High strength Fe–Mn–(Al, Si) TRIP/TWIP steels, development – properties – application’, Int. J. Plast., 2000, 16, (10–11), 1391–1409.
- Mujica L: ‘Development of high-strength corrosion-resistance austenitic TWIP steels with C+N’, PhD thesis, Ruhr-University Bochum, Bochum, Germany, 2010.
- Theisen W, Weber S, Mujica L: ‘Mechanical properties of (20–30) Mn, 12Cr, (0·56–0·7) C+N corrosion resistance austenitic TWIP steels’, Proc. 1st Int. Conf. on ‘High manganese steels’, Seoul, Korea, May 2011. Session B-20, organized by Inst. of Iron and Steel Technical Yonsai University, on CD-ROM.
- ZumGahr K.-H: ‘Microstructure and wear of materials’, Vol. 10, ‘Tribology series’; 1987, Amsterdam, Elsevier.
- Berns H, ed (ed.): ‘Hartlegierungen und Hartverbundwerkstoffe’; 1998, Berlin, Springer Verlag.
- Berns H: ‘Microstructural properties of wear-resistant alloys’, Wear, 1995, 181–183, S.271–S.279.
- Maccio Mdel Rosario: ‘Investigation of WC–FeMn(Si) sintered hard metal’, PhD thesis, Ruhr-University Bochum, Bochum, Germany, 2011.
- Upadhaya GS: ‘Materials science of cemented carbides – an overview’, Mater. Des., 2001, 22, (6), 483–489.
- Schubert R, Herber W: ‘Hard metals with “rounded” WC grains’, Int. J. Refract. Met. Hard Mater., 2006, 26, 360–364.
- Gabriel A: ‘New experimental data on the C–Fe–W, C–Co–W, C–Ni–W, C–Fe–Ni–W and C–Co–Ni–W cemented carbide systems and their application to sintering conditions’, R&HM, 1986, 12, 215–221.