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Page 4 - Lamps: Incoherent Light Sources

Labcure Mini HPI
Miltec
Labcure Mini HPI.

Specifications

Wavelength: -- nm
Light Source Power: 5200 W
Data Sheet
Labcure Mini Xtrema
Miltec
Labcure Mini Xtrema.

Specifications

Wavelength: -- nm
Light Source Power: 6000 W
Data Sheet
HPI Nitrogen Inerted
Miltec
Miltec UV’s Nitrogen Inerted system incorporates our HPI arc UV lamp system with a nitrogen inerted chamber to achieve low oxygen levels in the curing environment, as low as 50 parts per million, for special curing applications requiring the elimination of oxygen during the curing process. The air- cooled lamp system is ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI 3D Cure
Miltec
Miltec UV’s 3D Cure System is designed to handle simple to the most complex custom 3D cure applications, including those with varying parts, sizes, and shapes moving through a single production line. Our advanced technology provides consistent 3D curing of UV coatings. It incorporates our HPI model with its significant ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI Web Cure
Miltec
Miltec UV’s Web Cure UV System is designed for continuous web applications and includes proper light shielding and easy product access for all lamp lengths. It incorporates our HPI model with its significant performance advantages for consistent curing of inks, coatings and adhesives. Our design also accommodates easy access ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI Panel Cure
Miltec
Miltec UV’s Panel Cure Conveyor UV System efficiently cures UV coatings on door, cabinet panels, and molding and similar applications by simultaneously curing the top surface and all four sides with a single pass. This is accomplished at fast production speeds with only two UV lamps.The Panelcure UV System easily retrofits into ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI Gloss Control
Miltec
Miltec UV Gloss Control Technology uses our HPI model arc UV lamps to enable manufacturers to achieve a very wide gloss range using a single UV coating. This technology provides exceptional gloss control for producers to meet the ever changing tastes in the market for years to come. Low, medium, and high gloss levels are attainable ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI Vivid Color HD
Miltec
The development of our Vivid Color HD Technology resulted from close work with our customers in the metal decorating and flexo printing markets who are challenged to successfully cure dense, heavily pigmented UV inks at high speeds. This technology is ideally suited for many printing applications and others with the need to cure ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
HPI Arc Lamp
Miltec
Our HPI model is a variable power arc lamp UV system used to cure heavily pigmented and dense inks, stains, coatings and adhesives in a wide variety of production applications. Benefits include its reliable performance, consistent UV output, exceptional cooling, easy tool-less maintenance, and advanced touchscreen controls for easy ...

Specifications

Wavelength: -- nm
Light Source Power: -- W
Data Sheet
793-7910-2 Vycor Filter Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
79-7910-2 Vycor Filter Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
793-7910-1 Vycor Filter Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
79-7910-1 Vycor Filter Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
803-2049-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
80-2049-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
803-2049-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
80-2049-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
783-2046-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
78-2046-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
783-2046-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
78-2046-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
963-2100-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
96-2100-2 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
963-2100-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet
96-2100-1 Ozone Producing Double Bore Lamp
Jelight
The name “double-bore” comes from the special quartz used to make the Ultraviolet lamps. This glass consists of quartz tubing with a quartz partition, or septum, through the center (see drawing below). This allows the plasma to ignite at one electrode and travel around the septum back down to meet the other electrode ...

Specifications

Type Of Lamp: Mercury Lamp
Data Sheet