Microcement products are a relatively new technology that is used to repair concrete. The microcement products are a mixture of cement and fly ash. The fly ash is an industrial byproduct from power plants, which is used in concrete to reduce the amount of cement needed.
The microcement products are similar to fiber reinforced concrete, but the fiber reinforcement is replaced by fly ash. This makes it possible for the microcement product to be installed at temperatures as low as 40 degrees Fahrenheit (4 degrees Celsius). Fiber reinforced concrete must be installed above 60 degrees Fahrenheit (15 degrees Celsius).
Microcement products have been around since the 1980s, but they’ve only gained popularity recently due to advances in installation equipment that allows them to be installed quickly and easily without compromising quality.
There are two main types of microcements: Type I and Type II. Type I microcements are produced using a dry mix process and contain no water; they’re applied by placing them directly on top of the damaged area and compacting them with a vibrating roller or roller/compactor combination. Type II microcements are produced using a wet mix process; they’re poured into place like traditional concrete but then vibrated into shape within 48 hours before setting up completely
The microcement products are gaining popularity in the construction industry. The microcement is a combination of cement and sand, which makes it an excellent material for construction. It is also known as geopolymer concrete, or geopolymeric cement.
The main advantage of using microcement products is that they do not need a lot of energy to produce and they are very low maintenance. This makes them more sustainable than traditional concrete.
Microcement has been around since the 1960s, but it was only recently that people started to realize its potential for use in construction projects.
There are two main types of microcement available on the market: self-hardening and high-strength. The first type can be used for creating small structures such as retaining walls or garden walls. The second type performs better under heavy loads, so it’s best suited for larger structures like buildings or bridges.
There are many advantages of using this type of material over traditional concrete:
Low carbon footprint – It requires less energy to produce than traditional concrete because it doesn’t require any heat treatment or curing time (it hardens at room temperature). This means that there’s no need for large amounts of fuel during production, which reduces greenhouse gas emissions.
Durability – This material has a high durability that can last for decades without degrading. It also resists damage from extreme weather conditions such as heat and cold.
Ease of use – The product can be mixed with water and poured into place like concrete. It also does not require any grinding or cutting to fit into place like traditional cement does. This makes adjustments easier on the job site when working with tight time constraints.
Cost effectiveness – Microcement is less expensive than many traditional construction materials such as concrete, brick and stone because it uses less raw materials to produce the same amount of usable product. You can check our collections from Nikkolor.