Time-dependent rheology of semisolid metal suspensions
Date
1999Author
Burgos, Gilmer R.Alexandrou, Andreas N.
Entov, Vladimir
ISBN
978-0-87339-425-3Publisher
Affiliation: Metals Processing Inst, Worcester, United StatesCorrespondence Address: Burgos, Gilmer R.
Metals Processing Inst, Worcester, United States
Source
Light Metals: Proceedings of Sessions, TMS Annual Meeting (Warrendale, Pennsylvania)Pages
755-760Google Scholar check
Keyword(s):
Metadata
Show full item recordAbstract
Understanding the time-dependent flow behavior of semisolid materials (SSM) is essential for the simulation of semisolid processes. During processing, the structure of the material changes with the processing history due to agglomeration and di-agglomeration of particles or inter-particle interactions. Analysis of experimental data shows that the transient behavior of SSM at constant structure is shear thickening, and there exists a shear dependent finite yield stress. The flow of SSM is modeled using the Herschel-Bulkley fluid model. The yield stress, the consistency index, and the power-law index are assumed to be functions of the solid volume fraction and a structural parameter that changes with the processing history. The evolution of the structural parameter is described by a first-order kinetic differential equation. The model is then implemented into a 3-d computer code to predict the flow field, yield surfaces, and distribution of parameters in a channel flow.