In the high-temperature heating field of industrial kilns, the 1600℃ ultra-high temperature-resistant G-type silicon carbide heating rod has become a core heating element due to its outstanding performance. Made from high-purity silicon carbide through precision processes, this product features a unique G-type structure. Its main body is made of dark black silicon carbide, with white temperature-resistant connection terminals at both ends. The overall design is suitable for the installation and high-temperature operation requirements of industrial kilns.
Its core advantages lie in ultra-high temperature resistance and structural stability. It can work stably for a long time in an extreme high-temperature environment of 1600℃, far exceeding the temperature resistance limit of ordinary heating elements. At the same time, the G-type structure enables uniform heat distribution inside the kiln, ensuring temperature consistency in all areas of the kiln and providing a precise high-temperature heat source for processes such as ceramic sintering and metal heat treatment. Additionally, the product has excellent corrosion resistance, which can effectively resist the erosion of acid-base gases and oxidizing environments in the kiln, significantly extending its service life. In terms of application, it is suitable for industrial kilns in multiple industries: as the core heat source of ceramic kilns, it provides continuous and stable heat for high-temperature sintering of ceramic blanks; as a key heating component of metallurgical kilns, it assists in high-temperature processes such as metal forging and smelting; it is also applicable to high-temperature kiln equipment in the glass and building materials industries.
Compared with traditional heating elements, its long-lasting and durable characteristics can greatly reduce the downtime losses and operation and maintenance costs caused by frequent component replacement for enterprises. With stable and reliable heating performance, it ensures the continuous production of industrial kilns.