Refractory Castables are a type of monolithic refractory material that can be cast into shape and cured to form a solid, heat-resistant structure. They are available in three main types: Insulating, Dense, and Low Cement. Insulating Castables are designed to provide thermal insulation and have a low thermal conductivity, typically ranging from 0.2-0.5 W/mK. Dense Castables, on the other hand, offer high thermal shock resistance and mechanical strength, making them suitable for high-temperature applications. Low Cement Castables have a reduced cement content, which improves their thermal shock resistance and reduces their porosity. All three types of Refractory Castables are widely used in various industries, including steel, cement, and power generation, for applications such as furnace linings, boiler insulation, and kiln furniture. They offer excellent thermal resistance, mechanical strength, and durability, making them a popular choice for high-temperature applications.

Refractory Mortars are specialized cement-like materials used to bond refractory bricks, castables, and other ceramic materials in high-temperature applications. They are designed to withstand extreme temperatures, thermal shock, and chemical attack, while providing a strong and durable bond. Refractory Mortars are typically made from a mixture of refractory powders, such as alumina, silica, or magnesia, and a binding agent, which can be air-setting, heat-setting, or hydraulic-setting. They are available in various types, including air-setting, heat-setting, and low-cement mortars, each with its own unique properties and applications. Refractory Mortars are widely used in industries such as steel, cement, and power generation, for applications including furnace construction, kiln maintenance, and boiler repair. They offer excellent thermal resistance, mechanical strength, and durability, making them an essential component in high-temperature construction and maintenance.

Acid Resistance Mortar is a specialized type of mortar designed to provide exceptional resistance to acidic substances and corrosive environments. It is typically made from a combination of acid-resistant cements, aggregates, and additives, which are carefully selected and formulated to ensure optimal acid resistance. Acid Resistance Mortar can withstand exposure to a wide range of acidic substances, including sulfuric acid, hydrochloric acid, and nitric acid, and can operate in temperatures up to 100°C (212°F). It is widely used in industries such as chemical processing, pharmaceuticals, and food processing, for applications including tank linings, floorings, and walls. Acid Resistance Mortar offers excellent durability, chemical resistance, and thermal shock resistance, making it an ideal choice for harsh corrosive environments.

Ceramic Boiler Bed Material is a type of refractory material used in fluidized bed boilers (FBBs) to support the combustion process and improve efficiency. It is made from a combination of ceramic and refractory materials, such as alumina, silica, and zirconia, which provide excellent thermal shock resistance, chemical stability, and mechanical strength. Ceramic Boiler Bed Material is designed to withstand the high temperatures and turbulent conditions found in FBBs, and to maintain its shape and structure over time. It is used to line the boiler bed, where it helps to distribute heat evenly, support the combustion process, and reduce emissions. Ceramic Boiler Bed Material is widely used in power generation, industrial processes, and waste-to-energy applications, where it offers improved efficiency, reliability, and environmental performance.