UV-curing adhesives can help get manufacturers out of sticky situations.
Walter Brenner
Technical Director
Master Bond Inc.
Hackensack, N.J.
|
Organic adhesives usually contain solvents and various diluents or are composed of two components which must be carefully weighed and mixed prior to use. After these adhesives are applied, it takes heat to drive off solvents and other volatiles and speed the cure or hardening, especially for two-component mixtures. This thermal curing puts as many as 6 gallons of solvent into the air for every gallon of solid adhesive left. Such pollution is regulated by the EPA and companies are often forced to buy expensive recovery systems with afterburners.
UV-curing adhesives and compounds, on the other hand, avoid most of these problems while providing top-notch bonding and performance. For example, UV adhesives use only one component, so there's no weighing or mixing before use. This simplifies production schedules by eliminating pot-life problems. UV adhesives are also 100% reactive, so there are no volatile losses during curing and the process is nonpolluting.
UV adhesives remain stable and usable — even after storage at ambient temperatures for six months — until activated by UV light. Activation occurs only when exposed to UV light of 250 to 350 nm, and then the materials cure on demand, letting companies get rid of lengthy ambient-temperature cures or ovens needed for elevated temperature cures.
HOW THEY WORK
UV adhesives absorb radiant energy from a UV light source and convert it to chemical energy so quickly that curing is practically instantaneous. So quick, in fact, that substrates experience only a brief, superficial temperature change. This lets companies use UV adhesives on heat-sensitive materials including plastic films, moldings, and synthetic fibers, as well as elastomers and paper products.
The lack of heat is particularly valuable in electrical and electronic industries where transient thermal changes can degrade a component's performance. In addition, the low heat reduces substrate shrinkage and warpage, and permits additional on-line processing and off-line handling. This eliminates having to move parts to cooling racks before they go down the line, along with the space and labor requirements.
Completely reactive UV adhesives are not oxygen-inhibited and have fast curing rates at ambient temperatures and atmospheres, though curing is faster if heat is applied. This eliminates the need for atmospheric control — a nitrogen atmosphere, for example — to get tack-free cures. Equally important, cure continues in the dark after UV exposure until all UV reacting species are consumed, thus making economical use of UV energy.
UV compounds can cure despite cross-section thicknesses up to 0.5 in. and more for specific formulations. Maximum dimensional accuracy is assured because the compounds cure with minimum shrinkage.
UV-cured bonds remain intact over temperatures ranging from –80 to 350°F. The bonds also stay intact for a long time because they resist most chemicals even in the presence of moisture and heat.
For best adhesion, substrates must be carefully cleaned of oils, greases, release agents, dirt, and other contaminants. In many cases, such as with metals and other inorganics, a simple test determines if the surface is clean. The test involves spreading a few drops of cool water on the surface. If water spreads over the area with a continuous film, parts are clean enough. But if water beads or stays in puddles, degrease the surface with an EPA-acceptable solvents such as IPA or acetone. Repeat the water test before applying UV-cure adhesives. Polyolefins, such as polyethylene and polypropylene, as well as fluorocarbon polymers such as polytetrafluoroethylene and various chlorinated fluorocarbon resins, require special surface treatments for adequate adhesion.
UV Adhesives | |||||
Grade | Viscosity RT (cps) | Color | Hardness (Shore D) | Temperature range (°F) | Application |
UV10 | 300 to 400 | Light amber/clear | 60 to 65 | -60 to 250 | Low-viscosity, general-purpose adhesive, sealant, coating, and encapsulant. Cures rigid and up to 0.125-in. deep |
UV10FL | 600 to 700 | Light amber/clear | 45 to 50 | -60 to 250 | Flexible version of UV10. Resists shock and vibration. Good thermal cycling properties |
UV10LV | 150 | Light amber/clear | 75 | -60 to 250 | Ultralow viscosity. Good electrical properties. Ideal for conformal coatings |
UV10MED | 1,200 to 1,500 | Light amber/clear | 60 to 65 | -60 to 250 | Medical version of UV10. USP Class IV approved. Resists sterilants. |
UV10PSA | 16,000 & 18,000 | Transparent | N/A | -60 to 250 | Strong, fast-tacking pressure-sensitive adhesive. Available in two viscosities for flexible application. |
UV10TK | 30,000 to 40,000 | Light amber/clear | 70 to 75 | -60 to 300 | Higher viscosity version of UV10. Enhanced chemical and temperature resistance. Good dimensional stability, low shrinkage |
UV14-3 | 8,000 | Transparent | 30 | -60 to 250 | Flexible adhesive. Removes easily with conventional solvents. Low refraction index (1.477) |
UV14X-2TK | Thixotropic | Transparent | 60 | -60 to 250 | Semiflexible adhesive. Durable. Good electrical properties and low shrinkage. |
UV15 | 120 to 150 | Slight amber/clear | Below 75 | -60 to 300 | Very-low viscosity, good temperature stability, resists chemicals and shrinkage. |
UV15-42C | Paste | Translucent | Below 50 | -60 to 250 | Fast curing, good dimensional stability, and little shrinkage. |
UV15-7 | 1,400 to1,800 | Transparent | 70 | -60 to 300 | Good adhesion and nonyellowing. |
UV15-7DC | 1,500 to 2,500 | Transparent | Below 70 | -60 to 300 | Dual-cure version of UV15-7. Cures in shadowed out areas by adding heat (250°). |
UV15-LRI | 6,000 to 10,000 | Transparent | 50 | -60 to 250 | Low refraction index (1.481) |
UV15-7SP4 | 800 to 1,500 | Transparent | 35 | -80 to 250 | Flexible version of UV15-7 |
UV15-7SP4DC | 800 to 1,500 | Transparent | 35 | -80 to 250 | Dual-cure version of UV15-7SP4 |
UV15-7TK1A | Paste | Translucent | 65 | -60 to 300 | Paste version of UV15-7 |
UV15FL | 200 to 300 | Light amber/clear | 60 | -60 to 250 | Flexible version of UV15. Improved peel strength |
UV15TK | 8,000 to 10,000 | Slight amber | Below 75 | -60 to 350 | High viscosity version of UV15 |
UV15X-2 | 6,000 to 8,000 | Transparent | 65 | -80 to 250 | Semiflexible adhesive |
UB15X-2GT | Paste | Translucent | 65 | -80 to 250 | Resists heat and moisture |
UV15X-5 | 120,000 | Transparent | 35 to 40 | -80 to 250 | Flexible with good peel strength and abrasion resistance |
UV15X-6 MED | 24,000 | Transparent | 25 to 30 | -80 to 250 | Medical grade of UV15X-5. USP Class IV approved. |
UV16 | 120 to 150 | Slight amber/clear | Below 75 | -60 to 300 | Resists temperature and chemicals. Little shrinkage. |
UV18 MED | 1,800 to 2,000 | Transparent | 55 to 60 | -60 to 250 | Class VI medical adhesive. Resists sterilants |
UV18S | 1,800 to 2,000 | Slight amber/clear | 55 to 60 | -60 to 250 | Resists acids, bases, and solvents. |
UV19 | 300 | Transparent | 15 (Shore A) | -60 to 250 | Ultraflexible and soft curing. |
UV21 | 32,000 to 36,000 | Transparent | 20 to 25 | -60 to 250 | Flexible and adheres to acrylics, glass, polycarbonates, and other optical-type substrates |
UV22 | 4,000 | Transparent | Below 85 | -60 to 300 | Nanoparticle-reinforced for strength and low shrinkage |
The table lists various properties of UV-curing adhesives from Master Bond. Those with n/a under hardness are so listed because Shore-D hardness cannot be measured on these formulations.