radial clearance is generally executed in C3 or C4; higher rolling efficiency with inner rings remained onto the rolls during processing;

best material and advanced treatment; high radial load capacity;

carrying extremely high axial loads in both directions, and also supporting a certain amount of radial load;

specially designed for steel industry; allowing greater radial load;

sphered outer ring; self-aligning; tow rows of barrel-shape rollers in the inner rings, with outer ring having one spherical raceway;

enhanced operational reliability; high speed capacity;

separable inner ring for easy mounting; improving your rolling efficiency;

higher working performance and low cost to help the steel mills reduce their rolling mill cost; radial clearance is generally executed in C3 or C4;

mostly used in rolling mills of long products; radial clearance is generally executed in C3 or C4

working under the toughest working environment; able to work under high temperature, water, particles;

high speed applications; less stress concentrations on roller ends;

high speed applications; improving your rolling efficiency;

best material and advanced treatment; high radial load capacity;

convenient for mounting; having raceway grooves in both the inner rings and outer rings;

supporting axial loads in both directions; more convenient for mounting;

used in modern rolling mill stands; ready stock available;

higher rolling efficiency with inner rings remained onto the rolls during processing; stabilizing treatment allowing the bearings to work with temperatures up to 150° C, without dimensional change and distortion;

allowing greater radial load; carrying high capacity;

stabilizing treatment allowing the bearings to work with temperatures up to 150° C, without dimensional change and distortion; higher working performance and low cost to help the steel mills reduce their rolling mill cost;

improving your rolling efficiency; easy mounting and dismounting;