1. Bondarenko, V.P., Andreev, I.V., Savchuk, I.V., and Matveichuk, A.A., New technologies for the synthesis of tungsten-containing components of hard alloys of the VK and TK groups, in Porodorazrushayushchii i metalloobrabatyvayushchii instrument – tekhnika i tekhnolohii ego izgotovleniya i primeneniya: sb. nauch. tr. (Rock Cutting and Metalworking Tools—Equipment and Technologies for Its Manufacture and Use: Collection of Scientific Works), Kyiv: Bakul Institute for Superhard Materials of National Academy of Science of Ukraine, 2008, vol. 11, pp. 418–421.

2. Hu, H., Liu, X., Hou, Ch., Wang, H., Tang, F, and Song, X., How hard metal becomes soft: crystallographic analysis on the mechanical behavior of ultra-coarse cemented carbide, Acta Cryst. B, 2019, vol. 75, pp. 1014–1023.

3. Liu, X., Hou, Ch., Lu, H., Hu, H., Wang, H., and Song, X., Investigation on plastic deformation mechanism of ultra-coarse cemented carbide based on energy analysis, Int. J. Refract. Met. Hard Mater, 2020, vol. 88, pp. 105–177.

4. García, J., Collado Ciprés, V., Blomqvist, A., and Kaplan, B., Cemented carbide microstructures: a review, Int. J. Refract. Met. Hard Mater., 2019, vol. 80, pp. 40–68.

5. Waldenstrum, M. and Sandvik, A.B., US Patent 6214287, 1999.