Reference (s) | Binders/Fibres | Binder/Fibre Proportion (%) | Method | Initially Stabilised/Control Sample Thermal Conductivity (W/m/K) | Post-Stabilisation Minimum Thermal Conductivity (W/m/K) |
In this work | Cement | 0 | Asymmetrical Hot-Plane Method | 1.04 | 1.04 |
In this work | Cement | 4 | Asymmetrical Hot-Plane Method | 1.04 | 1.26 |
In this work | Cement | 6 | Asymmetrical Hot-Plane Method | 1.04 | 1.27 |
In this work | Cement | 8 | Asymmetrical Hot-Plane Method | 1.04 | 1.36 |
In this work | sawdust content | 4 | Asymmetrical Hot-Plane Method | 1.04 | 0.85 |
In this work | sawdust content | 6 | Asymmetrical Hot-Plane Method | 1.04 | 0.75 |
In this work | sawdust content | 8 | Asymmetrical Hot-Plane Method | 1.04 | 0.64 |
[32] | 1.2% Kenaf Fibres | Fibre Length 10 - 40 Mm | Hot-Film Method | 2 | 0.95 |
[33] | 10% Lime + Untreated Date Palm Fibre 10% Lime + Alkali Treated Date Palm Fibre | 0 - 0.2 | Transient Hot-Wire Method | 0.824 0.837 | 0.761 0.805 |
[34] | 10% Lime + 1% Aloe Vera Mucilage + Coconut Fibre | 0 - 0.5 | Linear Source of Transient Heat | 0.41775 | 0.35975 |
[35] | Cement Natural Rubber Latex | 8 1 - 5 | Hot Disk Method | 1 | 0.96 |
[36] | Bottom Biomass Ash | 0 - 20 | Hot Disk Transient Plane Source Method | 0.86 | 0.78 |
[30] | Metakaolin and Sodium Hydroxide Solution | 5 - 20 | Asymmetric Hot Plane Method | 0.6 | 0.71 |