HT Bearings
RANGYUN bearings, specializing in high - temperature applications, use special alloys and lubricants for reliability in extreme heat. They are widely used in aerospace, metallurgy, chemical, and energy sectors. We offer high - precision manufacturing, strict quality testing, and customization to deliver superior high - temperature bearing products and technical support.
RANGYUN : High-Temperature Bearings
In high-temperature environments, our bearings have been widely used in the following fields/companies:
Steel industry
In the steel production process, high-temperature areas such as rolling mills and steelmaking furnaces require high-temperature bearings to withstand high temperatures and heavy loads.
Glass manufacturing
Equipment such as glass melting furnaces and forming machines often operate in high-temperature environments, and high-temperature bearings can ensure the stability of equipment operation.
Aerospace
Components such as aircraft engines and rocket engines that need to operate in extreme high-temperature environments also widely use high-temperature bearings.
Chemical industry
Some chemical reactors, heating furnaces, drying equipment, and other high-temperature-resistant equipment are needed to ensure long-term stable operation of the equipment at high temperatures.
Energy industry
Such as boilers and turbines in thermal power plants and equipment in oil and gas extraction.
Electronics industry
Some high-temperature testing equipment and production processes may use high-temperature equipment, especially in high-frequency equipment or precision instruments.
We Can Be Your Solution
Rangyun Technology keeps moving forward. We are always committed to the development, design, experimentation, validation, and application of bearings for new products, materials, and applications, just to provide customers with the most innovative bearing solutions and products.
Rangyun Technology always adheres to the principles of persistence, integrity, and innovation, focusing on how to make bearing movement more scientific, how to accelerate bearings more scientifically, and how to extend bearing life more scientifically. We break through limits in the cycle of life, aiming to overcome all unknowns, uncertainties, and unpredictables.
