References
- Neikov OD, Yefimov N. Handbook of non-ferrous metal powders: technologies and applications. Amsterdam: Elsevier; 2009.
- Lawley A. Atomization: the production of metal powders. Princeton (NJ). Metal Powder Industries Federation; 1992.
- Boiarkina I, Norris S, Patterson DA. Investigation into the effect of flow structure on the photocatalytic degradation of methylene blue and dehydroabietic acid in a spinning disc reactor. Chem Eng J. 2013;222:159–171.
- Mohammadi S, Harvey A, Boodhoo KVK. Synthesis of TiO2 nanoparticles in a spinning disc reactor. Chem Eng J. 2014;258:171–184.
- Wang DX, Ling X, Peng H. Simulation of ligament mode breakup of molten slag by spinning disk in the dry granulation process. Appl Therm Eng. 2015;84:437–447.
- Satoh T, Okimoto K, Nishida S-I. Optimum producing conditions of rapidly solidified powder using centrifugal atomization method. J Jpn Soc Powder Powder Metall. 1993;40:1149–1153.
- Angers R, Dube C, Tremblay R. Inverted disk centrifugal atomization of 2024. Int J Powder Metall. 1994;30:429–434.
- Angers R, Tremblay R, Dubé D. Formation of irregular particles during centrifugal atomization of AZ91 alloy. Mater Lett. 1997;33:13–18.
- Ozturk S, Ozturk B, Usta G. Characteristics of rapidly solidified Cu-10%Sn alloy powders produced by water jet cooled rotating disc atomisation. Powder Metall. 2011;54:577–584.
- Plookphol T, Wisutmethangoon S, Gonsrang S. Influence of process parameters on SAC305 lead-free solder powder produced by centrifugal atomization. Powder Technol. 2011;214:506–512.
- Zhang LP, Zhao YY. Particle size distribution of tin powder produced by centrifugal atomisation using rotating cups. Powder Technol. 2017;318:62–67.
- Cegarra Salges SA, Pijuan J, Hernández R, et al. Effect of processing parameters on copper powder produced by novel hybrid atomisation technique. Powder Metall. 2020;63:142–148.
- Wang D, Ling X, Peng H, et al. High-temperature analogy experimental investigation on dry granulating characteristic of rotating disk for waste heat utilization of molten slag. Appl Therm Eng. 2017;125:846–855.
- Hinze J, Milborn H. Atomization of liquids by means of a rotating cup. J Appl Mech. 1950;17:145–153.
- Champagne B. Fabrication of powders by the rotating electrode process. Int J Powd Met Powd Tech. 1980;16:359–367.
- Champagne B, Angers R. Rep atomization mechanisms. Powder Metall Int. 1984;16:125–128.
- Labrecque C, Angers R, Tremblay R, et al. Inverted disk centrifugal atomization of AZ91 magnesium alloy. J Can Metall Q. 1997;36:169–175.
- Dunkley J, Aderhold D. Centrifugal atomization of metal powders. Adv Powder Metall Part Mater. 2007;1:2.
- Champagne B, Angers R. Size distribution of powders atomized by the rotating electrode process. Mod Dev Powder Metall. 1980;12:83–104.