Improving hard-alloy strength and tool life by thermomechanical treatment

Andrievskii R.A., Prospects for nanopowders, Materialy II Mezhregion. Konf., pp. 190-196, (1999)

Nikolaenko S.V., Verkhoturov A.D., Using Al₂O₃ nanopowders as grain-growth inhibitors in VK8 alloy, Vopr. Materialov., pp. 100-105, (2004)

Rempel' A.A., Kurlov A.S., Tsvetkov Y.V., Tungsten-carbide nanopowder for WC-Co hard alloys, IV Vserossiiskaya Konferentsiya Po Nanomaterialam. Sbornik Materialov, (2011)

Gordeev Y.I., Abkaryan A.K., Zeer G.M., Using nanopowders to improve the performance of hard-alloy tools, Tekhnol. Mashinostr., pp. 31-34, (2008)

Gordeev Y., Bukaemsky A., Zeer G., Teremov S., Pusyr A., Microstructure and properties of various cermets strengthened by ultrafine shock-wave particles, Powder Metallurgy World Congress and Exhibition, Granada, Spain, 4, pp. 140-145, (1998)

El-Eskandarany M.S., Fabrication and characterization of new nanocomposite WC/Al₂O₃ materials by room temperature ball subsequent consolidation, J. Alloys Comp., 391, 1-2, pp. 228-235, (2005)

Godse R., Gurland J., Applicability of the critical strength criterion to WC-Co, J. Mater. Sci. Eng. A, 106, pp. 331-336, (1988)

Nakamura M., Gurland J., The fracture toughness of WC-Co two-phase alloys: A preliminary model, Metall. Trans. A, 11, 1, pp. 141-146, (1980)

Chernyavskii K.S., Travushkin G.G., Current concepts regarding the relationship between the structure and strength of hard alloys, Probl. Prochn., pp. 11-19, (1980)

Panov V.S., Tekhnologiya I Svoistva Spechennykh Tverdykh Splavov I Izdelenii Iz Nikh, (2001)

Andrievskii R.A., Prospects for nanopowders, Materialy II Mezhregion. Konf., pp. 190-196, (1999)

Nikolaenko S.V., Verkhoturov A.D., Using Al₂O₃ nanopowders as grain-growth inhibitors in VK8 alloy, Vopr. Materialov., pp. 100-105, (2004)

Rempel' A.A., Kurlov A.S., Tsvetkov Y.V., Tungsten-carbide nanopowder for WC-Co hard alloys, IV Vserossiiskaya Konferentsiya Po Nanomaterialam. Sbornik Materialov, (2011)

Gordeev Y.I., Abkaryan A.K., Zeer G.M., Using nanopowders to improve the performance of hard-alloy tools, Tekhnol. Mashinostr., pp. 31-34, (2008)

Gordeev Y., Bukaemsky A., Zeer G., Teremov S., Pusyr A., Microstructure and properties of various cermets strengthened by ultrafine shock-wave particles, Powder Metallurgy World Congress and Exhibition, Granada, Spain, 4, pp. 140-145, (1998)

El-Eskandarany M.S., Fabrication and characterization of new nanocomposite WC/Al₂O₃ materials by room temperature ball subsequent consolidation, J. Alloys Comp., 391, 1-2, pp. 228-235, (2005)

Godse R., Gurland J., Applicability of the critical strength criterion to WC-Co, J. Mater. Sci. Eng. A, 106, pp. 331-336, (1988)

Nakamura M., Gurland J., The fracture toughness of WC-Co two-phase alloys: A preliminary model, Metall. Trans. A, 11, 1, pp. 141-146, (1980)

Chernyavskii K.S., Travushkin G.G., Current concepts regarding the relationship between the structure and strength of hard alloys, Probl. Prochn., pp. 11-19, (1980)

Panov V.S., Tekhnologiya I Svoistva Spechennykh Tverdykh Splavov I Izdelenii Iz Nikh, (2001)