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FMW1500S
Yinfrared
Gold1500S
Infrared heating is perfectly adapted to highly specialized processes. It provides directional heating and it is more favorable to apply heat only where it is needed. Plastic molding, joining, deburring, etc. are all well suited to infrared processing. The automotive industry benefits from this, as a large number of plastic parts are used in the production of automobiles. Whether it is the production of instrument panels, seat backs or door handles: with infrared solutions, energy can be transferred to the product without contact and heat is applied efficiently where it is needed, while the extreme penetration of infrared rays increases the heating efficiency considerably.
Modern infrared systems can be up and running in just 2-3 seconds - Fast stop and start. Switching from conventional systems such as gas-fired ovens to infrared heating technology reduces energy consumption by more than 70%.
Huaian Yinfrared heating Tech Produce the IR lamps for Automotive Plastic parts heating .
Custom infrared emitters from YFR are created to perfectly match your contoured parts and are developed for your specific heating requirements. We will collaborate with you to build and design an emitter that meets your needs, whether you're starting a new heating project or need to replace an emitter on your current production line.
Special shape quartz glass infrared emitters are widely used in automotive interior and exterior production lines, heating applications, including:
Vacuum laminating
Plastic deburring
Infrared joining and welding for plastics components
Activating adhesive
Thermoforming of car carpet and ceiling
Edge wrapping
Advantages of electric quartz glass infrared emitters:
Fixed contour, common or unique design, such as O shape IR lamps
approx. 1.800 - 2.400°C for the radiation temperature
within 1s to reach the operational temperature
Power up to 200 KW/m²
Short cycle durations, with an average heating time of 12 seconds
Different wavelengths (0,78 μm to 2 μm)
Low risk of fire, Greater distance to material possible
Gold or ceramic white coating available for directional radiation
Available in gold or ceramic white coating for directional radiation
Energy Direction Emitters available for Tolerance Adjustment
In order to precisely heat certain regions, infrared emitters can be designed to follow edges, rims, and curves.
Infrared heating is perfectly adapted to highly specialized processes. It provides directional heating and it is more favorable to apply heat only where it is needed. Plastic molding, joining, deburring, etc. are all well suited to infrared processing. The automotive industry benefits from this, as a large number of plastic parts are used in the production of automobiles. Whether it is the production of instrument panels, seat backs or door handles: with infrared solutions, energy can be transferred to the product without contact and heat is applied efficiently where it is needed, while the extreme penetration of infrared rays increases the heating efficiency considerably.
Modern infrared systems can be up and running in just 2-3 seconds - Fast stop and start. Switching from conventional systems such as gas-fired ovens to infrared heating technology reduces energy consumption by more than 70%.
Huaian Yinfrared heating Tech Produce the IR lamps for Automotive Plastic parts heating .
Custom infrared emitters from YFR are created to perfectly match your contoured parts and are developed for your specific heating requirements. We will collaborate with you to build and design an emitter that meets your needs, whether you're starting a new heating project or need to replace an emitter on your current production line.
Special shape quartz glass infrared emitters are widely used in automotive interior and exterior production lines, heating applications, including:
Vacuum laminating
Plastic deburring
Infrared joining and welding for plastics components
Activating adhesive
Thermoforming of car carpet and ceiling
Edge wrapping
Advantages of electric quartz glass infrared emitters:
Fixed contour, common or unique design, such as O shape IR lamps
approx. 1.800 - 2.400°C for the radiation temperature
within 1s to reach the operational temperature
Power up to 200 KW/m²
Short cycle durations, with an average heating time of 12 seconds
Different wavelengths (0,78 μm to 2 μm)
Low risk of fire, Greater distance to material possible
Gold or ceramic white coating available for directional radiation
Available in gold or ceramic white coating for directional radiation
Energy Direction Emitters available for Tolerance Adjustment
In order to precisely heat certain regions, infrared emitters can be designed to follow edges, rims, and curves.
