Compared with traditional heating tubes, short-wave halogen infrared heating tubes have the following advantages:
Faster heating speed: short-wave halogen infrared heating tubes can quickly increase the temperature in a short time. Generally, it only takes about three seconds from opening to normal use, while traditional heating tubes often take longer to reach the same temperature, which can greatly improve work efficiency.
Stronger penetration: short-wave infrared can penetrate the surface of the heated object, achieve simultaneous heating inside and outside, and make the heating effect more uniform and deep. In contrast, traditional heating tubes mostly heat the surface and thinner surface layers of objects. For some thicker or less thermally conductive objects, the surface may be overheated while the internal temperature does not reach the required temperature.
More precise temperature control: With appropriate temperature control equipment, short-wave halogen infrared heating tubes can adjust the temperature more accurately and maintain temperature stability to meet the requirements of different heating processes. Traditional heating tubes are relatively poor in temperature control accuracy and stability, and may affect the heating quality due to temperature fluctuations.
Longer service life: The halogen gas in the short-wave halogen infrared heating tube forms a halogen cycle, which can return the sublimated tungsten atoms to the tungsten wire, effectively reducing the loss of the tungsten wire and the blackening of the tube wall, thereby extending the service life of the heating tube. Traditional heating tubes are prone to blackening of the tube wall due to the sublimation of the tungsten wire, affecting the heating efficiency and life.
Higher power density: The average power density of the short-wave halogen infrared heating tube can reach 70w/cm, and the maximum power density can reach 120w/cm, which can provide a large amount of heat in a short time to meet the needs of rapid heating, while the power density of traditional heating tubes is generally low, and it is difficult to achieve such a high heating efficiency.
