References
- Kim BK. Technology and prospect of ultrafine carbide alloys. J Korean Powder Metall Inst. 1999;6:251.
- Mukhopadhyay A, Basu B. Recent developments on WC-based bulk composites. J Mater Sci. 2011;46(3):571–589.
- Luyckx S, Osborne C, Cornish LA, et al. Fine grained WC–VC–Co hardmetal. Powder Metall. 1996;39:210–212.
- Jiménez M, Romero L, Domínguez IA, et al. Additive manufacturing technologies: an overview about 3D printing methods and future prospects. Complex. 2019;9656938.
- DebRoy T, Mukherjee T, Milewski JO, et al. Scientific, technological and economic issues in metal printing and their solutions. Nat Mater. 2019;18:1026–1032.
- Yang Y, Zhang C, Wang D, et al. Additive manufacturing of WC–Co hardmetals: a review. Int J Adv Manuf Technol. 2020;108:1653–1673.
- Laoui T, Froyen L, Kruth JP. Effect of mechanical alloying on selective laser sintering of WC–9CO powder. Powder Metall. 2000;42:203–205.
- Chen H, Zhang C, Jia D, et al. Corrosion behaviors of selective laser melted aluminum alloys: a review. Metals. 2020;10:102.
- Jin W, Zhang C, Jin S, et al. Wire arc additive manufacturing of stainless steels: a review. Appl Sci. 2020;10:1563.
- Zai L, Zhang C, Wang Y, et al. Laser powder bed fusion of precipitation-hardened martensitic stainless steels: a review. Metals. 2020;10(2):225.
- Tian Z, Zhang C, Wang D, et al. A review on laser powder bed fusion of inconel 625 nickel-based alloy. Appl Sci. 2020;10:81.
- Wang H, Song X, Liu X, et al. Effect of heat-treatment of spray-dried powder on properties of ultrafine-structured WC–Co coating. Surf Coat Technol. 2012;207:117–122.
- Fernández AI, Haurie L, Formosa J, et al. Characterization of poly(ethylene-co-vinyl acetate) (EVA) filled with low grade magnesium hydroxide. Polym Degrad Stab. 2009;94:57–60.
- Ravi KE, Kevin CP, Thomas AW, et al. Sintering of WC–12%Co processed by binder jet 3D printing (BJ3DP) technology. Int J Refract Met Hard Mater. 2018;71:28–35.
- Mühlbauer G, Kremser G, Bock A, et al. Transition of W2C to WC during carburization of tungsten metal powder. Int J Refract Met Hard Mater. 2018;72:141–148.
- Chen J, Huang M, Fang ZZ, et al. Microstructure analysis of high density WC–Co composite prepared by one step selective laser melting. Int J Refract Met Hard Mater. 2019;84:104980.
- Kear BH, Skandan G, Sadangi RK. Factors controlling decarburization in HVOF sprayed nano-WC/Co hardcoatings. Scr Mater. 2001;44:1703–1707.
- Domashenkova A, Borbélyb A, Smurova I. Structural modifications of WC/Co nanophased and conventional powders processed by selective laser melting. Mater Manuf Process. 2017;32:93–100.
- Gusarov AV, Pavlov M, Smurov I. Residual stresses at laser surface remelting and additive manufacturing. Phys Procedia. 2011;12:248–254.
- Uhlmann E, Bergmann A, Gridin W. Investigation on additive manufacturing of tungsten carbide–cobalt by selective laser melting. Procedia CIRP. 2015;35:8–15.
- Baojun Z, Xuanhui Q, Ying T. Powder injection molding of WC–8%Co tungsten cemented carbide. Int J Refract Met Hard Mater. 2002;20:389–394.
- Zhang X, Guo Z, Chen C, et al. Additive manufacturing of WC–20Co components by 3D gel-printing. Int J Refract Met Hard Mater. 2018;70:215–223.
- Lengauer W, Duretek I, Fürst M, et al. Fabrication and properties of extrusionbased 3D-printed hardmetal and cermet components. Int J Refract Met Hard Mater. 2019;82:141–149.
- Gonzalez-Gutierrez J, Cano S, Schuschnigg S, et al. Additive manufacturing of metallic and ceramic components by the material extrusion of highly-filled polymers: a review and future perspectives. Materials. 2018;11:840.
- Yamamoto T, Tezuka K. Sintered hard material. United States patent 6,030,912, filled 1998 Jan 23, issued 2000 Feb 29.
- Gubisch M, Liu Y, Krischok S, et al. Tribological characteristics of WC1−x, W2C and WC tungsten carbide films. Tribol Interface Eng Ser. 2005;48:409–417.