Author:
Sun Bo,Wei Shizhong,Li Peng,Guo Han
Abstract
AbstractIn this study, the impact of flow channel structures on the acceleration of metal particles in a vacuum environment is explored, with the aim of enhancinge the acceleration quality in the centrifugal impact molding of metal powders. To assess this phenomenon, three evaluation indices are introduced: the average speed of particles thrown $${V}_{p}$$
V
p
, the average speed of the particles $${V}_{all}$$
V
all
, and the particle velocity distribution Vf (t). Additionally, the effects of six distinct runner structures on the centrifugal acceleration of the particles are analyzed in this research. The findings indicate that the arc-shaped flow channel structure not only ensures a more consistent acceleration process but also results in a higher ejection speed, leading to an improved acceleration effect. The unique contribution of this study is the examination of the relationship between flow channel designs and particle accelerations in a vacuum.
Funder
National Key Research and Development Program of China
Publisher
Springer Science and Business Media LLC