Ceramic Far Infrared Heating Element

Ceramic infrared heating elements our range of ceramic heater elements can be used in a wide range of commercial and industrial processes.

Ceramic far infrared heating element.

Ceramic elements operate in the temperature of 300 c to 700 c 572 f 1292 f producing infrared wavelengths in the 2 10 micron range. Standard heater designs are available in all common voltages 110v 120v 208v 220v 240v 277v 380v 415v 440v 480v 600v with a wide range of wattages available to fit the needs of nearly any process heating application under 1 200 f 650 c. This high rating allows ceramic materials to absorb and radiate infrared better than any other material. Most plastics and many other materials absorb infrared best in this range which makes the ceramic heater most suited for this task.

Ceramic elements have a temperature range of 300 c to 730 c and produces an infrared wave of 2 10 µ. Standard replacement elements are also available. Maximum temperature of 1292ºf 700ºc heating wire embedded into flat or concave shaped heater creates infrared in either focused or parallel rays. The glazed ceramic surface protects the heating spool against rust and aggressive substances.

88 get it as soon as fri sep 18. Mor infrared ceramic infrared heating elements. Ceramic material is a powerful conductor of energy with an emissivity rating that is nearly a full 1 0 higher than any other material. Providing heat control solutions weco international is a proud leading provider of ceramic elements and industrial infrared heaters.

Ceramic infrared heating elements are used for hardening and drying processes among others. Only 8 left in stock order soon. The main problem with a ceramic heater however is that it actually gets too hot. Ceramic infrared heating elements.

The ceramic heater is the most efficient infrared emitters on the market because it operates best between the temperature range of 300 to 700 degrees celsius 575 1292 degrees fahrenheit producing infrared wave lengths in the 2 10 micron range. Ceramic elements operate in the temperature of 300 to 700 c 570 to 1 290 f producing infrared wavelengths in the 2 to 10 μm range. Their long wave infrared radiant heat is highly effective in heat applications including thermoforming packaging and annealing. These elements are manufactured by moulding a resistive conductor into a ceramic mass.

Most plastics and many other materials absorb infrared best in this range which makes the ceramic heater the most popular infrared radiant emitter on the market. 96 infrared energy efficient.