CSA Cement applications
> Rapid repairs for Highways, Bridges, Runways where intense traffic openings are required.
> Self-leveling with High Early Strength.
> Rapid repairs Mortars and Leaking Stop materials.
> Shotcrete, Gunite, and Stucco applications.
> Mining Backfill grout (high water cement ratio).
> Concrete expansion agent (for controlling concrete shrinkage).
> Fast-setting tiles adhesive and non-shrinkage grout.
> Precast concrete applications.
> Self-Compacting Concrete usage.
> High early strength Concrete applications.
> Glass Fiber Reinforced Concrete (GRC).
> Tunnel construction projects.
> Power Plant infrastructure.
> Bridge Deck construction.
> Dam construction and repair projects.
> Self-leveling with High Early Strength.
> Rapid repairs Mortars and Leaking Stop materials.
> Shotcrete, Gunite, and Stucco applications.
> Mining Backfill grout (high water cement ratio).
> Concrete expansion agent (for controlling concrete shrinkage).
> Fast-setting tiles adhesive and non-shrinkage grout.
> Precast concrete applications.
> Self-Compacting Concrete usage.
> High early strength Concrete applications.
> Glass Fiber Reinforced Concrete (GRC).
> Tunnel construction projects.
> Power Plant infrastructure.
> Bridge Deck construction.
> Dam construction and repair projects.
CSA Cement v.s. Portland Cement
Attributes |
CSA Cement |
Portland Cement |
Strength |
Achieve the same strength or higher within 24 hours. |
Achieve the strength in 28 days. |
Shrinkage composition |
Require more water 0.48; A chemical and stable expansion; Prevent further shrinkage. |
0.35 water cement ratio; Water surplus cause shrinkage, cracking and warping. |
Solidification Time |
Need several hours. |
Need at least 7 days, concrete need 20 days. |
Alkali |
Ph 10.5-11, suitable to combine with glass fibre. |
Ph 13 |
CO2 Emissions |
62% of reduction, 216kg Co2 for every 1000kg produced. |
579kg Co2 for every 1000kg produced. |