Powder metallurgy through centrifugal atomization - theoretical model

Powder metallurgy is a process of forming solid particles from a melted material which is atomized by projecting it in the form of droplets generally at predetermined velocity into a gaseous medium, at a selected pressure which is not less than one atmosphere atmospheric pressure and substantially selected temperature which is in a range below the melting point of the atomized material. Two main centrifugal atomization processes are the rotating electrode process and rotating disk process. Investigation of centrifugal atomization as a method of manufacture of metal powders have demonstrated that the mechanism of comminution of liquids. The process of drop formation on a rotating electrode (or disk) in an atomization chamber is influenced by process parameters (electrode diameter or disk diameter, rotational speed, and rate of melting of feed of liquid metal) and the physical constants of the liquid metal (density, surface tension, and viscosity).

Autorentext

Mayuri Y. Barot has completed her Ph.D. in the year of 2015 in the field of electron scattering from S. P. University, Gujarat, India. She has published several research papers in national and international repute journals. She is presently working as an Asst. Professor in Physics at Govt. Sci. College, Gandhinagar.