Suspension balance model

The powder concentration module employs the Suspension balance model (SBM) to predict the powder segregation effect.

In this model the particle normal stress gradient is believed to be the driving force for particle migration. As a result, both shear induced powder segregation and the convection of powder concentration from upstream to downstream can be considered.

The SBM models the fluid and particle as two phases, but the full Navier-Stokes equations are only solved on the fluid and particle mixture, or suspension. One extra particle-phase mass balance equation is used, which is similar to a transport equation.

In Moldflow, the SBM model is defined by the following four governing equations:

Conservation of mass for a fluid

[1]

Where

• is the suspension density
• is time
• is the velocity vector

Conservation of momentum

[2]

Where

• is pressure
• is the viscous stress tensor
• is the gravitational acceleration vector

Conservation of energy

[3]

Where

• is the thermal conductivity
• is the specific heat capacity
• is the expansivity which is defined as follows

Particle-phase mass balance

[4]

Where

• is the particle volume fraction
• is the particle migration flux, relative to the bulk motion defined in [5]

[5]

Where

• is the sedimentation hindrance function
• is the suspension fluid viscosity
• is the particle radius
• is the particle normal stress, which is defined in [6]

[6]

Where

• is the particle normal stress viscosity, defined in [7]
• Tensor defines the anisotropy of the normal stress, defined in [8]
• is shear rate, defined in [9]

[7]

[8]

[9]