Varnishes & Coatings · The Complete Guide

A varnish is a liquid coating applied over printed ink to protect the surface, enhance appearance, or create a specific visual or tactile effect. Unlike lamination, which bonds a separate plastic film to the substrate, varnish is applied as a liquid and cures or dries in place on the print surface itself.

This distinction matters practically. Varnish adds little structural stiffness and is thinner than a lamination film, typically 2–8 microns dry film thickness versus 15–30 microns for BOPP lamination. But varnish can be applied selectively, only on specific areas of the print, which is something lamination cannot do. This is the basis of spot UV varnish, the most widely used premium finishing effect in Indian commercial and packaging print.

1. Aqueous varnish (water-based coating)

Aqueous varnish is a water-based coating applied either inline on the printing press (via a coater unit) or offline on a dedicated coating machine. It is the most widely used protective coating in commercial print, economical, fast-drying, and available in matte, satin, and gloss variants.

• Applied in a thin, even layer across the entire print surface (flood coat), selective application is possible but uncommon due to limited contrast with the uncoated areas
• Dries by water evaporation, no UV lamp required
• Provides basic scuff and moisture protection, adequate for most commercial print applications
• Compatible with gluing, water-based varnish does not prevent adhesive bonding, making it suitable for carton manufacture
• Does not add significant gloss, gloss aqueous typically achieves 40–55 GU versus 85–100 GU for UV
• Cost: the least expensive coating option

2. UV varnish · flood (full-surface)

UV varnish is a 100% solid formulation, it contains no water or solvent. It is applied as a liquid and cured instantly by exposure to UV lamps (mercury arc or LED UV). The result is a hard, highly glossy surface that is significantly more durable than aqueous varnish.

• Instant cure, no drying time, sheets can be handled immediately after the UV lamp
• Very high gloss, 70–85 GU for flood UV versus 40–55 GU for aqueous gloss
• Superior scuff, scratch, and chemical resistance compared to aqueous
• Flood UV on the entire surface: used as a high-gloss alternative to lamination
• Important: UV varnish cannot be applied over anti-setoff powder residue, the powder prevents adhesion. Ensure print surface is clean before UV coating.
• Gluing caution: UV-cured surfaces have high surface energy but require testing before applying carton glue, some adhesive systems do not bond reliably to UV-coated surfaces

3. Spot UV varnish

Spot UV is UV varnish applied selectively to specific areas of the print, a logo, a product image, a headline, a geometric pattern, while the surrounding areas remain uncoated or matte. The contrast between the high-gloss UV area and the flat surrounding surface creates a three-dimensional visual and tactile effect.

• Applied offline using a screen printing unit or a dedicated spot coating machine
• The spot UV artwork is a separate layer, typically supplied as a die-cut or silhouette version of the element to be highlighted, on its own layer in the PDF
• Minimum feature size: approximately 1–2mm for clean edge definition, very fine lines and small text do not hold sharp edges reliably
• Can be applied over lamination (gloss or matte BOPP) for a dramatic contrast effect
• Cannot be applied reliably over soft-touch lamination, adhesion failure is common
• Dry film thickness: 5–8 microns, creates a slight physical raise that is perceptible by touch on heavy deposits

4. Flood matte UV varnish

A UV-curable varnish formulated to produce a flat, matte finish rather than gloss. Less common than standard UV varnish but used when the durability and instant cure of UV is needed with a non-reflective result.

• Achieves 5–20 GU, similar to matte lamination in appearance
• More durable than aqueous matte varnish
• More expensive than aqueous
• Used on premium packaging where gloss is not desired but lamination is impractical

5. Pearlescent / metallic varnish

A varnish containing metallic pigment particles, aluminium for silver effect, iron oxide or mica for gold, bronze, and interference colours. Applied flood or selectively to create a metallic sheen without foil stamping.

• Less expensive than hot foil, suitable for large metallic areas where foil would be cost-prohibitive
• Does not achieve the mirror-like reflectivity of hot foil, the pigment particles create a more diffuse metallic effect
• Available in gold, silver, copper, bronze, and interference (colour-shifting) variants
• Dry film is slightly thicker than standard varnish, 6–10 microns

6. Anti-scuff / protective UV varnish

A UV varnish formulated with additives that increase surface hardness and slip, reducing the friction that causes scuffing during transit. Used on retail packaging that travels long supply chains.

• Surface hardness measurably higher than standard UV varnish, passes Sutherland rub test at higher cycle counts
• Gloss level similar to standard UV (65–85 GU)
• More expensive than standard UV, specify only where transit damage is a demonstrated problem

7. Scented varnish

A UV or aqueous varnish containing microencapsulated fragrance that is released when the surface is rubbed. Used in FMCG packaging, promotional materials, and children's products. The microcapsules burst on contact friction, releasing the scent.

• Fragrance intensity diminishes over time, typical shelf life 12–18 months from application
• Food-regulatory compliance required for any food-contact or food-adjacent application
• Applied selectively (spot) for best effect, flood application wastes fragrance and increases cost

Drip-off varnish creates a simultaneous gloss and matte effect on the same sheet in a single pass through the press, without a second offline coating operation. It is one of the most cost-effective premium finishing options available, and one of the least understood in India.

How drip-off works

In a drip-off process, two varnishes are applied in sequence inline on the press in the coating unit:

• First, a repellent varnish (sometimes called a release varnish) is printed in the areas that will be matte, typically background areas, text panels, and borders
• Immediately after, a high-gloss UV varnish is flood-coated over the entire surface
• Where the UV flood coat contacts the repellent varnish, it cannot bond, it beads up and flows off (drips off) that area, leaving it matte
• Where the UV flood coat contacts bare printed ink or paper, it bonds and cures to a high gloss

When to use drip-off

• When you want the contrast of spot UV over matte, but without the cost of a second offline operation
• Annual reports, corporate brochures, premium product catalogues, where large areas of gloss/matte contrast are required
• Premium packaging where the finishing budget does not support separate spot UV operation
• Inline on 5-colour or 6-colour presses with a dedicated coating tower, the repellent varnish uses one colour unit, the flood UV goes through the coater

Aqueous varnish · inline coater

Applied via a rubber roller or flexo anilox unit in the press coating tower. The varnish is metered onto the sheet at a controlled weight, typically 3–6 gsm wet. Drying is by hot air and infrared lamps in the press delivery. Key parameters:

• Coat weight: 3–6 gsm wet, too light gives insufficient protection; too heavy causes cockling on thin stocks
• Drying temperature: 60–80°C in the IR dryer, too hot causes paper curl; too cool leaves tacky surface
• Viscosity: 25–45 seconds in a Zahn cup #2, check at start of each run and every 2 hours
• Substrate: works on all coated and uncoated papers. On uncoated stock, absorption is higher, increase coat weight slightly

UV varnish · offline coater

Applied on a dedicated UV coating machine with a UV curing lamp system. The sheet passes through a rubber or anilox roller that applies the varnish, then immediately under the UV lamps. LED UV lamps run cooler and have longer lamp life than mercury arc lamps. Key parameters:

• UV lamp intensity: minimum 80 mJ/cm² for standard UV varnish, below this, surface may feel tacky or block in the pile
• Machine speed: matched to lamp intensity, faster speed requires higher lamp output
• Substrate surface energy: minimum 36 dynes/cm for reliable adhesion, test with dyne solution if adhesion is questionable
• Anti-setoff powder: must be removed from print surface before UV coating, powder at ink surface prevents varnish adhesion. Use air knife or brush wiper before the coating unit.

Spot UV varnish · screen printing unit

Spot UV is most commonly applied using a screen printing unit or a dedicated flexo spot coater. The design to be highlighted is output as a stencil, only the highlighted areas receive varnish. Key parameters:

• Screen mesh: 50–80 mesh for standard spot UV deposits (5–8 µm dry film), coarser mesh gives thicker deposit and more tactile feel
• Registration: spot UV must be registered to the underlying print, misregister shows as a halo around the coated element. Tolerance is typically ±0.3mm.
• Edge definition: sharp edges require a well-tensioned screen and correct squeegee pressure, a worn or slack screen produces soft, blurry varnish edges
• UV lamp: same cure requirements as flood UV, minimum 80 mJ/cm²