Table 2.
Summary of the analytical techniques in self-compacting concrete modeling.
| Literature | Numerical technique | Rheology | Flowability |
|---|---|---|---|
| Güneyisi et al.31 | H–BM & MBM | Yield stress and shear rate | Slump flow |
| Güneyisi et al.32 | H–BM & MBM | Shear rate | Slump, V-funnel, and L-box flows |
| Feys et al.33 | BM, H–BM & MBM | Shear rate | Slump flow |
| Li et al.34 | LBM | – | Slump flow |
| Qui and Han35 | LBM & H–B | – | Slump and L-box flow |
| Mu et al.36 | LBM & H–B | Yield stress, power law index, and consistency index | U-box passing ability |
| Kabagire et al.37 | KD & COT | Plastic viscosity and yield stress | Slump flow |
| Kabagire et al.38 | MKD & MCOT | Plastic viscosity and yield stress | Slump flow |
| Huang et al.39 | MBM | Yield stress, viscosity, and shear rate | – |
| Campos and Maciel40 | BM, MBM, H–BM | Shear rate | Slump flow |
| Rehman et al.41 | BM, MBM, H–BM , & CM | Yield stress, viscosity and shear rate | Flow trend |
| Talebet al.42 | MBM & H–BM | Yield stress and plastic viscosity | – |
| Petersson et al.43 | BM | Yield stress and plastic viscosity | Slump and L-box flow |
| Zhaidarbek et al.44 | KKM to H–BM & MBM | Shear rate | Flow rate |
| Shin et al.45 | VFM | Yield stress | Slump flow |
| Hosseinpoor et al.46 | CFD-DBT | – | L-box flow |
| Onyelowe et al.47 | BT & CT | – | L-box flow |
| Onyelowe et al.48 | BT & CT | – | V-funnel flow |
| Mahmoodzadeh and Chidiac49 | NRM-CM | Yield stress and plastic viscosity | – |
| Benaicha et al.50 | Analytical | Yield stress and plastic viscosity | V-funnel/horizontal channel system |
| Benaicha51 | Abacus | Yield stress and plastic viscosity | V-funnel, L-box, and Slump cone |