UV Polymer Curing

UV Polymer curing is a process that uses UV light to alter the properties of a polymer, or photopolymer.  A photopolymer is the term for a polymer that responds to UV light, which is basically invisible electromagnetic radiation.  When a photopolymer, which can be a variety of resins, is exposed to the UV radiation, it will typically harden and seal, creating a strengthened surface or an unbreakable bond.

UV Polymer Curing Applications

UV Polymer curing is used in many industrial applications to instantly dry ink or to create a hardened surface without use of solvents or chemicals.  Some common examples of useful applications include:

• Adhesive Bonding

• Inks / Varnishes / Lacquers

• Decorative Glazes

• Coatings

• Label Printing

• Graphic Designs

• Disinfection of Medical Equipment

These are just a few of the many industries that are using UV lamps for curing various polymers.  There are many additional applications for UV curing, and more and more businesses are seeing the benefit of this process.  UV curing was first introduced in the 1960’s, and it is increasingly being adopted by companies as there are many advantages over prior methods of curing polymers.

Curing Lamps

There are three types of UV lamps used for UV polymer curing.  High Pressure UV (HPUV), Medium Pressure UV (MPUV), and Amalgam Lamps.  High Pressure (HPUV) curing lamps are also referred to as Metal Halide lamps, and use mercury with short wavelength outputs.  The HPUV lamps are typically used for the altering of polymers by hardening resins in many of the applications mentioned above.  Medium Pressure lamps (MPUV) are often used for water and air disinfection purposes, while Low Pressure Amalgam lamps are typically used for curing catatonic inks which are inks that are typically an epoxy based resin and respond to UV lighting.  LightSources and our European partner, LightTech, are proud to have pioneered new pellet technology for amalgam lamps.

There are so many benefits to using UV lights for curing it will be difficult to list them all.  We can begin with efficiency.  Imagine a conveyor belt full of parts passing under a UV light as they head to their next destination, possibly quality inspection or packaging.  While no one touched the parts, sprayed solvents on them, or even laid eyes upon them, they underwent a very important process.  Just by passing under the lights, the surface was hardened and strengthened, a strong scratch-resistance texture was enhanced, and any printing or graphic design needing reinforcement was just instantly dried and strengthened.

Now imagine a different manufacturer that does not use UV curing.  They must have an assembly line with people spraying solvents on the parts, requiring face masks and ventilation and still exposing the employees to harmful chemicals in the air and on the skin.  This also opens the door for human error, uneven coating, and inconsistency.

As you can clearly see from these two examples, the efficiency of UV curing is definitely one of the most valuable benefits.  This efficiency also leads to increased production speeds as several parts can be treated at once simply by passing under a row of the proper high intensity UV lighting.   Choosing to cure your parts with UV lighting will increase your output dramatically, while not requiring an investment in an increased labor force, workstation for an added process, or supplies of chemicals that are most likely harmful to the environment.

In addition to efficiency and cost savings, consistency is another big advantage of using UV curing over any other process.  With UV lighting, the amount of exposure is constant, and consistent.  There is no chance of human error in applying an outer coating unevenly on a large amount of parts.  This consistent process results in less quality issues such as internal rejects and the worst rejects of all, customer returns and complaints.   A consistent process is something that all quality minded OEM’s are searching for as consistency results in superior quality, time and again.

Efficiency and consistency are and should always be a top consideration for any production process, (both result in increased profits), but let’s not forget an even more important benefit – the health and safety of your workers and the environment.  Simply by using UV radiation to cure your parts, you are saving your employees from inhaling harmful chemicals, you are not emitting pollutants into the air, and you also do not have to worry about properly storing or disposing of such harmful chemicals.   Any chemical substance on a worksite must be handled with proper storage and disposal guidelines, while maintaining material safety data sheets on the chemical or solvent.

Not only does the increased efficiency and consistency provide an instant return on your investment and a quick increase to the bottom line, not purchasing, storing, disposing of or documenting alternative substances is also a huge savings, and instant increase in profitability.

With all of these benefits, it is difficult to imagine why a manufacturer would choose an alternative method over UV polymer curing.   Efficiency, consistency, safety, less regulations, increased profits, and last but not least – longevity.   LightSources UV curing bulbs will retain their energy output up to 90% of their end of life cycle, enhancing and prolonging all other financial benefits.  As we all know, time is money.  Less time spent processing parts, or replacing bulbs, is an immediate increased profit.

LightSources in the United States, and our European partner, LightTech, provide quality custom UV bulbs to OEM’s large and small all over the world.   If one of our standard sizes does not fit your application, contact us to see how we can assist you in providing custom built bulbs for your required process.   LightSources and LightTech are also the only manufacturer to offer universal installation.   Our lamps can be installed either horizontally or vertically while maintaining equal efficiency.  This feature is exceptionally critical when applying the UV polymer curing process to three dimensional parts, allowing an even exposure to the UV radiation reaching what were previously hidden dimensions.

LightSources in the U.S. and our strategic partner in Europe, LightTech represent the leading high-tech designers and manufacturers in the lamp industry today.  Our products are used world-wide in a multitude of applications and industries such as our UV air treatment systems that offer patent-protected, OEM-oriented solutions.  We invite you to contact us to learn more about our wide selection of lamps

UV Drying Lamps Provide Cost Savings Through Efficiency

UV Drying Lamps

UV drying lamps (or UV curing lamps) are a very important component of the production process in many industries around the globe. Industrial applications of UV drying lamps include:

Automakers

Automakers use UV drying lamps for curing polymers such as specialty resins, inks and varnishes.  When certain polymers are exposed to UV wavelengths, a photochemical process referred to as cross linking occurs producing a hardened and strengthened finish.  This process is used to create hardened gloss surfaces on visible interior parts, or to strengthen plastic parts used in certain assemblies.

UV curing gives automakers a big time saving advantage, as most products treated with UV radiation are cured and touchable within two minutes of time.  This keeps the assembly line moving, with no bottleneck occurring at a treating station.

The Printing Industry 

UV curing of inks is being used instead of solvent based inks in the printing industry, with great benefits.  While solvent inks shrink when drying and evaporate into the air, UV drying lamps provide a consistent clean and crisp finish for various products including glossy postcards, magnets, calendars, and even plastic or wood products.

Packing Companies

Corrugated manufacturers realize the benefit of utilizing UV curing to instantly dry the ink on their packaging products.  This provides a clean crisp vibrant print color, and dries much faster and more consistently than infrared heat drying.  Increased output equals increased profitability.

Flooring

UV light is used to cure concrete, vinyl, and tiles to improve stain resistance and increase the durability of the flooring product.  This process is extremely effective with no toxic odor from chemical treatment, and allows for immediate occupation making it possible to walk on the floor within minutes of treatment.

Other Applications of UV Lighting

UV lamps are also used in various disinfection and purification systems, providing high performance with no use of chemicals. Here are some examples:

UV Disinfection of Medication Equipment

Ultraviolet germicidal treatment of medical equipment includes treating test strips, dialysis machines, syringes, hearing aids, and various other medical devices requiring disinfection.

Air Purification with UV Treatment

Many settings where clean air is critical such as hospitals utilize UV air purification systems to effectively remove harmful contaminants in the air, making it easier to breathe for some people and reducing the likelihood of transmitting bacteria through airborne illnesses.

Water Treatment with UV-Based Solutions

UV water treatment systems have long been utilized as a safe and effective method of providing clean drinking water in public water treatment plants.  UV lamps also provide a safe and very effective method of eradicating harmful microorganisms in ships ballast water.

LightSources Provides UV Lamps for All Applications

LightSources, and our European Partner, LightTech, are global leaders in developing and manufacturing UV lamps with proprietary technology, providing an efficient and cost-effective solution for a multitude of industrial applications.

Low Pressure Mercury Lamp

There are different types of UV lamps for different applications.  The most common type of a UV germicidal bulb is our low-pressure mercury lamp.  This lamp is filled with a small amount of mercury, and either Argon gas or a mixture of gases such as Neon, Krypton or Xenon, providing a specific UV wavelength for your requirement.   Most UV germicidal applications require an effective germicidal wavelength at 254 nm (nanometer), while some applications call for a different exact wavelength for a specific application.

Some benefits of the LP mercury lamp include various options in either standard or high-output quartz lamps, standard or high-output soft glass compact lamps.  Our softglass lamps can operate on lower currents while maintaining high germicidal efficiency, and all of our LP mercury lamps have exceptionally high performance throughout a long-lasting life of up to 13,000 hours.

Low-Pressure Amalgam Lamps

Low-pressure amalgam lamps can yield three times the output of UVC compared to other similar lamps. LightSources has developed patented LongLife™ pellet amalgam technology, which provides greater UVC intensity even in dimming mode, providing cost savings in energy efficiency.  Our LP amalgam lamps provide superior efficiency over a long life of up to 16,000 hours.

Our low pressure amalgam lamps are often used in water and air purification, disinfection procedures, and disinfection applications within the medical industry.   Our amalgam lamps are an important part of water treatment systems for ships ballast water, providing an effective solution to shipping companies’ requirement of compliance to the Ballast Water Treatment Convention.

Medium Pressure Ultraviolet Lamps (MPUV)

Medium-pressure UV lamps have long been used to instantly cure inks, varnishes and coatings.  Over the last decade improvements in technology in MPUV lamps have expanded use into water and air purification and disinfection applications, and to irradiate energy such as visible light, at various wavelengths.

LightSources provides MPUV lamps in various standard sizes, or our expert engineers can custom design a system just for your needs.  MPUV lamps are popular for ship ballast water treatment systems as they carry a small footprint.

Value Added Services

The LightSources Group includes partners around the globe, providing innovative solutions for various OEM applications with quick turn around and patented technology.  LightTech utilizes a specialty glass manufacturing facility in Hungary, where custom products can be designed for your engineering requirements.  Strategic partners like Cerlux provide custom ceramic bases and fittings, Voltarc is a world leader in specialty neon and fluorescent signs and LCD Lighting specializes in backlighting for avionic display applications, and miniature high-performance lighting applications.

LightSources and its affiliated companies – LCD Lighting, Voltarc, LightTech, and Cerlux represent the leading high-tech designers and manufacturers in the lamp industry today. Our standard lamps and components as well as customized products offer high-quality solutions to meet our partner’s unique needs.  We invite you to contact us to learn more about our wide selection of lamps.