3.5kW Spiral MoSi2 Heating Element For High Temperature Furnaces, 1700-1800℃

  As high-temperature heating elements, silicon-molybdenum rods offer many outstanding features. They possess excellent high-temperature resistance and can operate stably at temperatures around 1600°C in oxidizing atmospheres for extended periods, even withstanding higher temperatures for short periods. This makes them crucial in numerous applications requiring high temperatures. The spiral design increases the heating surface area, facilitating more even heat distribution, thereby improving heating efficiency and effectiveness. This allows for more balanced temperature distribution within the furnace and reduces the impact of local temperature differences on the heated object. Furthermore, silicon-molybdenum rods exhibit excellent chemical stability and are resistant to chemical reactions with other substances in many high-temperature reaction environments, effectively maintaining their properties and extending their service life.

  In terms of operating environments, they are widely used in various high-temperature industrial and laboratory furnaces. In the ceramic industry, silicon-molybdenum rods are used in sintering furnaces. Their high-temperature properties provide the necessary high-temperature conditions for sintering ceramic blanks, promoting the full bonding and densification of ceramic particles, thereby ensuring the quality of the finished product. In the glass industry, glass kilns rely on the high temperatures generated by silicon-molybdenum rods to meet the stringent temperature requirements of glass melting and clarification processes, thereby contributing to the production of high-quality glass products. Heat treatment furnaces in the metallurgical industry, such as those used for metal annealing and quenching, utilize the stable high temperatures provided by silicon-molybdenum rods to alter the metal's internal structure, optimize its properties, and enhance its quality. Furthermore, in scientific research, silicon-molybdenum rods are often used in experimental electric furnaces to create a high-temperature experimental environment, providing strong support for experimental research in fields such as materials science and helping researchers conduct various experimental explorations requiring high-temperature conditions.