F.F.E Full Flat Element 150 – 1000 Watt

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FFE 150 Watt

  • Mean Surface Temperature: 300 Celsius
  • Approximate Time Until Top Temperature: 13 minutes
  • Average Weight: 202 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 1.0 W/cm 2 (6.5 W/inch 2)

FFE 250 Watt

  • Mean Surface Temperature: 405 Celsius
  • Approximate Time Until Top Temperature: 13 minutes
  • Average Weight: 203 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 1.7 W/cm 2 (10.9 W/inch 2)

FFE 300 Watt

  • Mean Surface Temperature: 430 Celsius
  • Approximate Time Until Top Temperature: 13 minutes
  • Average Weight: 204 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 2.0 W/cm 2 (13 W/inch 2)

FFE 400 Watt

  • Mean Surface Temperature: 500 Celsius
  • Approximate Time Until Top Temperature: 12 minutes
  • Average Weight: 205 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 2.7 W/cm 2 (17.4 W/inch 2)

FFE 500 Watt

  • Mean Surface Temperature: 550 Celsius
  • Approximate Time Until Top Temperature: 11 minutes
  • Average Weight: 206 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 3.4 W/cm 2 (21.7 W/inch 2)

FFE 650 Watt

  • Mean Surface Temperature: 620 Celsius
  • Approximate Time Until Top Temperature: 10 minutes
  • Average Weight: 207 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 4.4 W/cm 2 (28.3 W/inch 2)

FFE 750 Watt

  • Mean Surface Temperature: 650 Celsius
  • Approximate Time Until Top Temperature: 9 minutes
  • Average Weight: 208 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 5.1 W/cm 2 (32.6 W/inch 2)

FE 1000 Watt

  • Mean Surface Temperature: 730 Celsius
  • Approximate Time Until Top Temperature: 8 minutes
  • Average Weight: 210 grams
  • Dimensions: 245 × 60 x 24mm
  • Wave Length:2 to 10 Microns
  • Electrical Power Loading: 6.8 W/cm 2 (43.5 W/inch 2)

Ceramic Heating Technology

  1. Using Long wave radiation for curing heating and drying is an environmentally friendly, portable and cost effective method of heating. They have a cast-in iron-chrome aluminium resistance wire which operate in the temperature range of 300 Celsius to 730 Celsius
  2. The glazed ceramic surface protects the heating coil from the risk of corrosion or chemical attack. Ceramic elements operate in the temperature of 300 Celsius to 730 Celsius producing an IR wavelength on the 2 / 10 micron range. Most plastics and many other materials absorb IR best in this range. Which makes the ceramic heater the most efficient IR radiant emitter on the market.
  3. A range of aluminised steel reflectors are also available to ensure that most of the radiation generated is reflected forward on to the target area.

Please note other wattage/voltage configurations available on request.

Standard Features

  1. Iron-chrome aluminium resistance wire.
  2. Heater Voltage: 230 Volts standard.(other voltages available on request)
  3. Heater Wavelength range 2 / 10 microns.
  4. UL approved
  5. Recommended radiation distance from heater is 150mm to 200 mm.
  6. Average Operating Life: 5,000 / 10,000 Hours.
  7. Supplied with 100mm / 10mm ceramic beaded power leads.

Options Available:

Wire Termination

  1. Standard (ferrule)
  2. Ring Termination
  3. Contact Ceramicx for other
  4. possible terminations.

Thermocouples

  1. Thermocouple Type J
  2. Thermocouple Type K

Colour

  1. Standard (white)
  2. Yellow
  3. Rose
  4. Black
  5. Other Possibilities on Request

Specsheet: Plancks law
CAD File: FFE-Model