High alumina wear resistance ramming mass is a high quality refractory material used to protect high temperature equipment from wear and erosion caused by harsh working conditions. It is used in a variety of industrial applications including steelmaking, foundry, cement production, petrochemical and power generation.
High alumina wear resistance ramming mass is a high quality refractory material used to protect high temperature equipment from wear and erosion caused by harsh working conditions. It is used in a variety of industrial applications including steelmaking, foundry, cement production, petrochemical and power generation.
As a High alumina wear resistance ramming mass manufacturer, we are committed to providing our customers with high quality refractory materials that offer superior protection against wear and erosion in high temperature industrial applications. Our High Alumina Wear Resistant Pounding Compound consists of high quality raw materials, including high alumina aggregates, binders and additives, which are carefully selected and processed to ensure optimum performance and durability.
High temperature resistance
Our tamping compounds can withstand ultra-high temperatures up to 3272°F (1800°C), making them ideal for high-temperature industrial applications.
Excellent Thermal Shock Resistance
Our High alumina wear resistance ramming mastics can withstand rapid temperature changes without cracking or other damage, which helps to extend the service life of the refractory lining.
Good chemical resistance
High alumina wear resistance ramming mass is resistant to a wide range of chemicals and contaminants, which helps protect the underlying equipment from corrosion and other forms of damage.
High strength and abrasion resistance
Our high alumina abrasion-resistant ramming material has high compressive strength and abrasion resistance, which helps maintain the integrity of the refractory lining and reduce maintenance costs.
Easy to install
Our High alumina wear resistance ramming mass is easy to install and can be shaped to the specific contours of the equipment being lined. It can be installed using a variety of techniques, including tamping, pouring and lancing.
Customizable formulations
We work closely with our customers to develop customized formulations of High alumina wear resistance ramming mass to meet their specific requirements. This optimizes performance and cost-effectiveness for each specific application.
Low porosity
The low porosity of our High alumina wear resistance ramming mass helps prevent erosion and wear caused by molten metals or other materials.
Steelmaking
High alumina wear resistance ramming mass is commonly used in ladles, continuous casting tanks and other high temperature equipment in the steelmaking industry. It provides excellent protection against wear and erosion caused by molten metals and other materials.
Foundry
High alumina wear resistance ramming mass is used in foundries for furnaces, molds and other equipment. Its high temperature resistance and wear resistance make it ideal for preventing wear and erosion caused by the casting process.
Cement production
High Aluminum Wear Resistant Batter is used in kilns and other high temperature equipment in the cement production industry. It provides excellent protection against wear and erosion caused by high temperatures and abrasive materials used in the cement production process.
Petrochemical industry
High alumina wear resistance ramming mass is used in the petrochemical industry for piping in reactors, furnaces and other equipment. Its high temperature resistance and chemical resistance make it ideal for preventing corrosion and wear caused by harsh chemicals.
Power generation
High alumina wear resistance ramming mass is used in boilers, furnaces and other high temperature equipment in the power generation industry. It provides excellent protection against wear and erosion caused by the combustion process.
Item | Value | ||||
---|---|---|---|---|---|
HRM-90A | HRM-90B | HRM-50A | HRM-50B | ||
Max Service Temperature(ºC) | 1500 | 1500 | 1400 | 1400 | |
Chemical Composition(%) | Al2O3 | ≥90 | ≥90 | ≥50 | ≥50 |
Fe2O3 | ≤1.0 | ≤1.0 | ≤2.5 | ≤2.5 | |
Bulk Density(kg/m3) | 110ºC*24h | ≥2850 | ≥2900 | ≥2300 | ≥2000 |
Modulus of Rapture(Mpa) | 110ºC*24h | ≥10 | ≥15 | ≥8 | ≥6 |
540ºC*3h | ≥10 | ≥18 | ≥7 | ≥5 | |
815ºC*3h | ≥10 | ≥18 | ≥7 | ≥5 | |
Cold Crushing Strength(Mpa) | 110ºC*24h | ≥80 | ≥12 | ≥60 | ≥40 |
540ºC*3h | ≥80 | ≥130 | ≥50 | ≥30 | |
815ºC*3h | ≥80 | ≥130 | ≥50 | ≥30 | |
Linear Change(%) | 815ºC*3h | ±0.25 | ±0.20 | ±0.20 | ±0.20 |
Thermal Conductivity (W/m.K) | 815ºC | 1.0~1.45 | 1.0~1.45 | 0.8~1.25 | 0.7~1.1 |
Abrasion Resistance(cc) | 815ºC*3h | ≤6 | ≤6 | ≤12 | ≤12 |
Specializing in refractory materials for over 20 years, we provide professional refractory solutions for the global high temperature industry.
Theme By Fireramo