Colloidal silica and bond breakers
By Sheldon White Colloidal silica post-placement pozzolan technology is not a bond breaker. Colloidal silica post-placement pozzolan technology penetrates concrete […]
By Sheldon White Colloidal silica post-placement pozzolan technology is not a bond breaker. Colloidal silica post-placement pozzolan technology penetrates concrete […]
By Carl White Water vapour transmission and condensation look similar. In both instances, water collects on the surface of the
By Carl White Colloidal silica post-placement pozzolan (P3) reacts with Calcium Hydroxide (CH) to form secondary Calcium Silicate Hydroxide (CSH).
By Carl White SprayLock Concrete Protection’s (SCP) colloidal silica post-placement pozzolan (P3) technology improves concrete structural integrity. Design professionals need
By Carl White United States-based Spray-Lock Concrete Protection’s colloidal silica post-placement pozzolan technology reduces reinforcing steel corrosion in concrete. Reinforced
By Carl White Our colloidal silica post-placement pozzolan technology reduces drying shrinkage. One of the challenges associated with concrete is
By Carl White The microstructure of cement paste as it hydrates. Notice the growth of C-S-H on the cement minerals
By Sheldon White Colloidal silica post-placement pozzolan technology can be used with any flooring coverings and adhesives that are to
By Sheldon White Our colloidal silica post-placement pozzolan technology differs in form and function from topically applied silicates. Extensive research has
By Sheldon White Our colloidal silica post-placement pozzolan technology reduces moisture vapour transmission to levels that are low enough for