Colloidal silica and silicate salts
In this article, Carl White discusses the difference between colloidal silica post-placement pozzolan (P3) and silicate salt admixtures. Silicate salt admixtures generally […]
In this article, Carl White discusses the difference between colloidal silica post-placement pozzolan (P3) and silicate salt admixtures. Silicate salt admixtures generally […]
By Sheldon White Colloidal silica post-placement pozzolan technology can benefit polished concrete in many ways. Polishing entails removing the upper
By Sheldon White Colloidal silica post-placement pozzolan technology fills capillary voids by reacting with calcium hydroxide found in concrete to
By Carl White Colloidal silica post-placement pozzolan technology differs to commonly available materials that are marketed as corrosion inhibitors. Our
By Sheldon White Concrete abrasion resistance is an important consideration for certain structures. These include those that carry continuous vehicle
By Sheldon White Concrete curing differs to drying. Yet, the two terms are often incorrectly used interchangeably, especially when referring
By Carl White Water vapour transmission and condensation look similar. In both instances, water collects on the surface of the
By Sheldon White Colloidal silica post-placement pozzolan technology differs from vapour retarders or barriers. In this article, we will explain
By Sheldon White Colloidal silica reduces water-vapour transmission in concrete by between 70% and 80%. This is according to independent
By Carl White Colloidal silica post-placement pozzolan technology is often used as a superior curing medium. Testing has shown that