CAC (Calcium Aluminate Cement)

• Construction Dry-mix Specialty Cements
  Construction GFRC (Glass Fiber Reinforced Concrete) Specialty Cements

  CAC (Calcium Aluminate Cement), also called HAC (High Alumina Cement), is a hydraulic binder produced by fusing limestone and bauxite in a rotary kiln.

  Both are specialty cement that is primarily composed of alumina and calcium.

  HAC (High Alumina Cement) is a type of cement with a high alumina content, typically greater than 50%, and is known for its high early strength and rapid hardening properties.

  Calcium Aluminate Cement (CAC) is a cement composed mainly of calcium and alumina. CAC is used in applications requiring rapid setting and hardening, such as in construction materials, refractory materials, and sewage pipes.

  CAC cement sets quickly, and its high early strength is beneficial in precast concrete production, where rapid demolding and handling are required. CAC cement is also used in refractory castable, which is used to line high-temperature furnaces, kilns, and boilers.

  Sprayed and wet-trowelled Calcium Aluminate Cement systems are practical and durable for lining and rehabilitating large-diameter sewers and manholes. Their high-strength, rapid-setting properties, excellent adhesion, imperviousness to biogenic attacks, and seamless surface make them reliable and long-lasting for protecting sewer systems from deterioration and extending their lifespan.

• Construction Gunite and Shotcrete Gunite Additives

  This additive can enhance the strength and setting time of the sprayed concrete.

• Construction Sewer Rehabilitation Additives

  CAC is a hydraulic binder that fuses limestone and bauxite in a rotary kiln. CAC cement sets quickly, and its high early strength is beneficial in precast concrete production, where rapid demolding and handling are required. CAC cement is also used in refractory castable, which is used to line high-temperature furnaces, kilns, and boilers.

  CAC systems are proven to work and are impervious to biogenic attacks:

  • CAC systems are formulated with a high calcium aluminate concentration, giving them exceptional strength and rapid-setting properties. This allows the system to set quickly, which minimizes downtime and allows the sewer to be put back into service quickly.
  • CAC systems have excellent adhesion properties, which enable them to bond tightly to the substrate. This creates a strong, durable lining that can withstand high water pressure, chemical attacks, and abrasion.
  • Biogenic attacks are caused by bacteria that thrive in sewage environments. These bacteria produce sulfuric acid, which can erode and corrode sewer structures over time. CAC systems are highly resistant to biogenic attacks because they are not susceptible to the acid these bacteria produce. In addition, the dense, impervious surface of the CAC lining prevents the bacteria from penetrating the surface and causing further damage.
  • CAC systems create a seamless, smooth surface that is easy to clean and maintain. The smooth surface prevents the accumulation of debris, which can cause blockages and backups in the sewer system.
• Construction Specialty Cement

  CAC (Calcium Aluminate Cement) is a type of hydraulic binder manufactured by fusing limestone and bauxite in a kiln. CAC cement sets quickly, and its high early strength is beneficial in precast concrete production, where rapid demolding and handling are required. CAC cement is also used in refractory castable, which is used to line high-temperature furnaces, kilns, and boilers.

  Some of how CAC is useful in construction (pre-bagged dry mix systems), mining, water treatment, sewer rehabilitation, refractory, and other applications are:

  • Rapid setting: CAC has a high early strength and can set and harden quickly. This makes it useful in applications where a fast turnaround time is required.
  • High strength: CAC has excellent mechanical strength and can be used in various construction and refractory applications requiring high strength.
  • Acid resistance: CAC is highly resistant to acidic environments and can be used in applications where exposure to acids is expected, such as in water treatment plants.
  • Reduced drying shrinkage: CAC has a low shrinkage rate compared to Portland cement, making it suitable for applications where cracking due to shrinkage is a concern.
  • Sewer rehabilitation: CAC is commonly used in rehabilitating sewer pipes due to its ability to withstand the harsh chemical environment found in sewer systems.
  • Refractory: CAC is commonly used in refractory applications due to its high melting point, making it ideal for use in the linings of furnaces and kilns.
  • Pre-bagged dry mix systems: CAC is used in pre-bagged dry mix systems to provide a rapid setting and high strength to the final product.
  • Mining: CAC is used in mining applications as a binder in manufacturing explosives.
  • Water treatment: CAC is used in water treatment applications because it neutralizes acidic water.
• Water Treatment Descaling and Corrosion Control Additives

  CAC (Calcium Aluminate Cement) is a specialty cement that is sometimes used in water treatment for lime removal. Lime (calcium hydroxide, Ca(OH)2) is a common byproduct of many water treatment processes and can cause scaling and corrosion in pipes and equipment. Lime removal is necessary to maintain the proper pH and prevent the buildup of calcium deposits in water treatment systems.

  CAC cement can be used in lime removal processes by adding them to the water to neutralize excess lime. This reaction forms calcium carbonate (CaCO3), a solid that can be separated from the water by sedimentation or filtration. However, it is important to note that CAC is a specialty cement, and its use for lime removal is not common.

  Other, more commonly used lime removal methods include adding acid to neutralize excess lime and using ion exchange resin systems to remove calcium ions from the water. The choice of method depends on the specific water treatment system and the desired results.