H Type Silicon Carbide Rod 250MPa-500MPa SiC Heating Elements

H-type silicon carbide rod
From a technical perspective, the H-shaped silicon heating element represents a significant advancement in heating technology. The use of two carefully matched SiC rods and a thickened silicon carbide bridge provides a strong and durable structure that can withstand the high temperatures and mechanical stresses of industrial applications.
The metallization of the cold end tail ends with aluminum is a clever solution that minimizes electrical resistance and improves the overall efficiency of the heating element. By providing a low-resistance contact surface to the aluminum connection straps and clamps, it ensures that electrical energy is transferred efficiently from the power source to the heating element.
The ability to connect the power cord at one end of the furnace due to the shared cold end of two ED silicon heating elements is a practical design feature. It simplifies the electrical connections and reduces the complexity of the wiring system.
The high surface temperature of 1500 makes the H-shaped silicon heating element suitable for applications that require extremely high temperatures. This is achieved through the use of high-quality materials and advanced manufacturing processes. The element's ability to maintain a high temperature uniformity is also crucial for many industrial processes, as it ensures consistent heating and better product quality.
The energy-saving structure of a furnace built with the H-shaped silicon heating element is another advantage. By reducing the number of heating element holes, the furnace can achieve better insulation and thermal efficiency, resulting in lower energy consumption.
In terms of applications, the wide use of these elements as high-temperature heat sources for electric furnaces and the firing of electronic components demonstrates their versatility and reliability. The stability and high temperature capabilities of the H-shaped silicon heating element make it an ideal choice for these demanding applications.