With a 40-acre specialized manufacturing base, we are at the forefront of refractory material science, dedicated to developing next-generation high-temperature solutions for industries where heat, corrosion, and wear demand uncompromising performance.
With a 40-acre specialized manufacturing base, we are at the forefront of refractory material science, dedicated to developing next-generation high-temperature solutions for industries where heat, corrosion, and wear demand uncompromising performance.
Magnesium Oxide Ceramic Crucible: Sintered from high-purity MgO at high temperatures, it can withstand 2800°C, resist erosion by alkaline slag, and is suitable for high-end smelting of precious metals and special alloys. It is a key consumable in scientific research and high-end metallurgy.
As a core component of modern resistance furnaces, it embeds heating elements into ceramic fiber modules, integrating heating, fire resistance, and heat insulation into one. This is a lightweight and revolutionary design that replaces the traditional refractory brick furnace chamber.
Processed and customized into special-shaped structures such as cones and burner blocks using alumina and silica ceramic fibers as raw materials, they combine high-efficiency heat insulation and convenient installation, and are suitable for the heat insulation needs of complex parts of high-temperature equipment.
It is a flexible roll-shaped material made from calcined bauxite as raw material, which undergoes high-temperature melting, fiberizing by spinning/blowing, and then shaping. Integrating lightweight, flexible properties and excellent heat insulation performance, it is a mainstream refractory insulation product.
