Composition of a High-Temperature Box Furnace

  1. Heating Elements:
    • Typically uses silicon carbide (SiC) rods as heating elements, arranged vertically at the top and bottom of the furnace.
    • SiC rods are non-metallic and have resistance that changes significantly during heating.
    • To prevent damage, heating below 850 °C should not be too rapid.
    • Over time, SiC rods age, increasing resistance and slowing heating, requiring multi-stage adjustable transformers to regulate voltage and power.
    • SiC rods have low thermal shock resistance, low high-temperature strength, and are brittle, which limits their length and the furnace chamber size.
    • Alternative materials:
      • Molybdenum disilicide (MoSi₂) rods, capable of reaching up to 1600 °C, also require adjustable transformers.
      • High-temperature resistive alloys can be used as elements for furnaces with slightly lower max temperatures (~1200 °C) but larger power and chamber size for bigger workpieces.
  2. Furnace Lining (Refractory Structure):
    • Typically three layers:
      1. Inner layer: High-alumina bricks for heat resistance.
      2. Middle layer: Insulating bricks.
      3. Outer layer: Insulating filler.
    • Optionally, alumina-silicate refractory fibers can be inserted between refractory and insulating layers.
  3. Furnace Bottom Plate:
    • Made of silicon carbide products to withstand high temperatures.
  4. Workpiece Capacity:
    • Standard SiC rod furnaces handle smaller workpieces due to heating element limitations.
    • Furnaces with resistive alloy elements can handle larger workpieces due to higher power and larger chamber size.