These materials offer excellent workability and adhesion properties. They provide effective lining solutions for areas requiring patching or reshaping, allowing for quick repairs and minimal downtime. Plastic Refractories are easy to handle and can be applied by hand or using simple tools, making them ideal for on-site applications and emergency repairs.
Composed of refractory aggregates and binders, these mixes offer excellent thermal shock resistance and erosion resistance. They provide effective lining solutions for areas subjected to severe wear and abrasion, allowing for quick installation and extended service life. Ramming Mixes are highly customizable and can be tailored to meet specific application requirements.
Composed of refractory aggregates and binders, these mixes offer excellent adhesion properties and workability. They provide effective lining solutions for areas requiring patching or coating, allowing for quick repairs and minimal downtime. Gunning Mixes are easy to apply using pneumatic or manual guns.
Composed primarily of alumina (Aluminum Oxide), these bricks offer exceptional resistance to thermal shock, abrasion, and chemical corrosion. Their high refractoriness and mechanical strength make them suitable for applications where operating temperatures are elevated, ensuring prolonged service life and reduced maintenance costs.
They have excellent thermal stability and corrosion resistance. These bricks consist of alumina (Aluminum Oxide) and spinel (Magnesium Aluminum Oxide), offering a balanced combination of refractoriness, mechanical strength, and erosion resistance.
Composed of alumina (Aluminum Oxide) and silica (Silicon Dioxide), these bricks offer good thermal conductivity, resistance to thermal shock, and chemical stability. Their main application lies in areas where high refractoriness and resistance to slag erosion are required, ensuring optimal performance and durability in demanding environments.
These bricks are composed of alumina (Aluminum Oxide) and carbon, offering superior resistance to thermal shock, abrasion, and chemical erosion. Their high refractoriness and thermal conductivity make them ideal for applications where operating temperatures are extreme, ensuring reliable performance and extended service life with minimal maintenance requirements.
They are known for their excellent resistance to high temperatures, thermal shock, and slag corrosion. These bricks are composed of high-purity magnesia and graphite, offering superior erosion resistance and thermal conductivity. downtime.
These bricks are composed of magnesia and dolomite, offering a balanced combination of refractoriness, corrosion resistance, and thermal conductivity.
These bricks are composed of magnesia and chrome oxide, offering excellent resistance to corrosion by basic slag and high temperatures. They exhibit superior thermal stability and mechanical strength, making them ideal for environments with severe operating conditions.
These bricks are composed of magnesia and alumina spinel, offering a unique combination of refractoriness, mechanical strength, and erosion resistance.
These bricks offer excellent resistance to thermal shock, abrasion, and slag corrosion. They provide reliable performance in environments with rapid temperature changes and chemical exposure, ensuring prolonged service life and reduced maintenance costs in steelmaking operations.
These bricks offer superior thermal conductivity, resistance to thermal shock, and erosion resistance. They provide reliable performance and extended service life, contributing to improved efficiency and cost-effectiveness.
These blocks offer excellent resistance to high temperatures and thermal shock. They provide robust performance in environments with extreme heat and chemical exposure, contributing to enhanced productivity and extended service life in steelmaking operations.
Composed of lightweight refractory materials, these bricks offer low thermal conductivity and excellent insulation properties. They provide effective heat containment, reducing energy consumption and improving furnace efficiency.
These castables offer excellent thermal shock resistance and mechanical strength. They are highly versatile and can be customized to meet specific application requirements, making them ideal for a wide range of steelmaking applications.
Composed of lightweight aggregates and refractory binders, these castables offer low thermal conductivity and excellent insulating properties. They provide effective heat containment, reducing heat loss and improving furnace efficiency.
Composed of expanded minerals, these materials offer excellent thermal insulation, low heat storage, and resistance to thermal shock. They provide effective heat containment, reducing energy consumption and improving furnace efficiency.
These products offer exceptional thermal insulation, low heat storage, and resistance to thermal shock. They provide reliable performance in environments with extreme temperatures, contributing to improved energy efficiency and reduced operating costs.
