Product Name:
High-Power Ceramic Heating Core for Hot Air Rework Station
Product Material:
High-purity Alumina ($Al_2O_3$) or Silicon Nitride ($Si_3N_4$) substrate, Co-fired Tungsten (W) or Molybdenum (Mo) internal heating circuit, High-temperature Alloy terminals
Material Characteristics:
Extreme temperature resistance (up to 800°C), Rapid airflow heating capability, Exceptional thermal shock resistance, High dielectric strength, Corrosion-resistant internal encapsulation, Long service life under continuous high-flow operation
Application Fields:
BGA rework stations, Handheld hot air guns, Plastic welding torches, Heat shrink tubing tools, Industrial drying and curing modules, Desoldering systems, Automated heat-sealing machinery
Application Industries:
Biomedical (Medical plastic sealing), Advanced Machinery (Component pre-heating), New Energy (Battery pack insulation), Fluid Control (High-temperature gas heaters), Electronic Engineering (SMT/BGA rework), Aerospace (Circuit board repair), Petrochemical (Heat tracing), Broad Semiconductor (Wafer drying)
Processing Difficulties:
Achieving high power density without ceramic fatigue during rapid airflow cooling, Managing precision resistance tolerance for accurate PID air-temperature control, Ensuring structural integrity of the honeycomb or spiral airflow channels, Controlling electrode reliability at sustained high temperatures
Processing Flow:
Ceramic powder preparation → Precision extrusion or tape casting → Internal circuit screen printing → Multi-layer spiral lamination → High-temperature co-firing (1600°C+) → Airflow channel precision machining → Terminal brazing → High-voltage insulation testing → Airflow thermal response calibration → Packaging
Delivery Period:
Standard specifications: 20-35 days, Customized high-power/special-shaped cores: 45-60 days
This Ceramic Heating Core is specifically engineered for high-performance hot air rework stations and industrial heat guns. By utilizing an advanced co-fired ceramic structure, the heating circuit is fully embedded within the substrate, allowing for direct and efficient heat transfer to the passing airflow. Unlike traditional quartz-tube heaters with exposed wires, our ceramic cores are immune to oxidation and mechanical vibration, ensuring a stable and clean hot air stream. Its superior thermal shock resistance allows it to handle rapid start-stops and high-volume airflow without cracking, making it the ideal choice for lead-free BGA rework and precise industrial thermal processing.
Key Features
Rapid Air Heating: Reaches target air temperature in seconds with high energy conversion efficiency.
Oxidation-Free Design: Internalized circuit prevents wire thinning and burnout, extending service life by up to 3 times compared to traditional heaters.
Superior Insulation Safety: High-purity ceramic substrate ensures no electrical leakage to the nozzle or airflow.
Stable Thermal Performance: Maintains precise temperature control even under varying airflow speeds and volumes.
Compact & Robust: High mechanical strength withstands the vibrations and accidental drops typical in professional workshops.
Core Technical Specifications
Our Market Advantages
