Showing 37–45 of 45 results

  • 1625C Tube Type Silicon Carbide Heater Sic...

    The SiC Heating Element is a high-performance heating solution made of silicon carbide, used in various industrial heating applications, providing efficient and reliable heat transfer.

  • 1625C Manufacturer Professional Reaction S...

    SIC heating element, also known as silicon carbide heating element, is a durable and efficient heating element used in high temperature applications.

  • 1625C Spiral Type Silicon Carbide Rod Heat...

    Silicon carbide rod heating element. High-temperature resistance. Efficient and fast heating. Durable and long-lasting. Energy efficient. Easy to install and maintain.

  • 1625C High Quality W Type Silicon Carbide ...

    Sic electric heating element is a high-temperature resistant and durable heating solution, ideal for use in industrial furnaces and kilns.

  • 1625C U W I Shape Silicon Carbide Heater R...

    The U W I Shape Silicon Carbide Heater Rod is a powerful and efficient heating solution made of silicon carbide, used in high-temperature industrial applications, ensuring consistent and reliable heat transfer.

  • 1625C Wear Resistant Gun Type Silicon Carb...

    Silicon carbide heater element is a type of heating element made of silicon carbide material. Suitable for high temperature applications up to 1600°C. Long lifespan and efficient heating.

  • 1625C Wear Resistant Gun Type Silicon Carb...

    The Silicon Carbide Heating Element is a reliable and efficient heating solution used in various industrial heating applications, ensuring consistent heat transfer.

  • 2500W 220V Oven Tubular Heater Element Sa...

    Oven tubular heater element is a metal tube that generates heat when electricity flows through it. Commonly used in ovens. Replaceable if damaged.

  • 1625C Wear Resistant Gun Type Silicon Carb...

    Silicon carbide rod heating element. High-temperature resistance. Fast and efficient heating. Durable and long-lasting. Energy efficient. Easy to install and maintain.