What is Quartz Heating Elements used for?
Quartz heating elements provide short to medium wavelength radiation and can be the most preferred source of heat when a rapid heater response is needed.
They generally are used for fast response applications, where the product cycles are shorter than that of ceramic heaters, and several tool changes throughout the day are needed. These types of heating elements heat up and cool down in less than half the time of ceramic heaters
The quartz elements are comprised of a series of quartz tubes running parallel to each other within a highly reflective stainless steel housing. Each cell contains a coiled resistance wire available in various wattages and voltages—watt densities up to 30 w/sq. Inch (4.65 w/sq. cm) are available. The range of sizes and watt densities makes quartz emitters the preferred choice in zoning arrangements. Applications such as plastic thermoforming and vacuum forming sheet-fed processes with intricate heating patterns. They all need precise zone control, are small in size, and can easily be put in larger panels.
The quartz heating element is approximately the same size as our ceramic infrared heaters.
The use of quartz infrared heaters, including vacuum forming, thermoforming, curing, bonding and process heating applications.
An alternative to quartz heating elements is ceramic; they are slower to heat up, but as they are far, they are better at penetrating surfaces deeply. For more info on both options, read here.
We recommend the use of our contactless thermocouple sensors for accurate temperature control.
Rapid cool down
Ideal for fast cycling machines
Highly reflective stainless steel casing
High radiant efficiency
Low convection losses
Four standard Sizes
Wide choice of power ratings available
Volts: Heater can be manufactured to suit most supply voltages.
|Stock code||Wattage||Part No.||Temp|
The standard size in mm are 248 L x 62 W x 23 H
Studs are M5 x 20mm and 190mm appart
WaveLength 1.5-8 microns
Option choices on request, wattage, voltage and mounting
Average working life 5,000 to 10,000 hrs
Iron-chrome aluminium resistance wire
Heating distance 100 mm to 200 mm
Minimum recommended spacing between elements: 5mm.
High temperature ceramic beaded leads
Element body temperature not to exceed 500°C (932°F).
Quartz Heater Data Sheet
|Part No||Power Rating||Voltage||Size||Element Type||Minimum Wavelength||Supply Voltage||Surface Temperature|
|UFQ250||250 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||6.1 micron||220/240 Vac||375°C|
|UFQ300||300 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||5 micron||220/240 Vac||435°C|
|UFQ400||400 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||4.9 micron||220/240 Vac||536°C|
|UFQ500||500 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||4.6 micron||220/240 Vac||556°C|
|UFQ750||750 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||4.5 micron||220/240 Vac||658°C|
|UFQ1000||1000 W||220 Vac||247 mm x 62.5 mm x 30 mm||QFE||4.3 micron||220/240 Vac||745°C|
|UHQ200||200 W||220 Vac||124 mm x 62.5 mm x 30 mm||QHE||5.2 micron||220/240 Vac||510°C|
|UHQ250||250 W||220 Vac||124 mm x 62.5 mm x 30 mm||QHE||5.1 micron||220/240 Vac||570°C|
|UHQ325||325 W||220 Vac||124 mm x 62.5 mm x 30 mm||QHE||4.9 micron||220/240 Vac||615°C|
|UHQ500||500 W||220 Vac||124 mm x 62.5 mm x 30 mm||QHE||4.6 micron||220/240 Vac||722°C|