How to Choose

• Substrate - paper or board vs non-porous films, foils, glass, plastics
• Artwork - solids vs fine text and photos, need for special effects
• Volume - from prototypes to multi-million labels
• Change frequency - versioning, market-specific SKUs, promotions
• Sustainability - water-based inks, recyclability, energy use
• Downstream converting - laminating, varnishing, die-cutting, forming, sterilization

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Flexographic Printing (Flexo)

Principle: Relief process using flexible photopolymer plates. Ink is metered by an anilox roller and transferred from raised image areas to the substrate.

Key Features

• Wide ink set: water-based, solvent-based, UV-curable
• Runs efficiently on roll-to-roll lines with inline finishing
• Compatible with porous and non-porous substrates

Advantages

• Cost effective for medium to long runs
• Fast changeovers, good color consistency
• Strong for labels, filmic wraps, and shrink materials

Limitations

• Photographic detail requires HD plates and process control
• Dot gain and plate wear must be managed

Typical Applications

• Pressure-sensitive and wraparound labels
• Flexible packaging films and laminates
• Paperboard cartons and corrugated preprint

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Rotogravure Printing (Gravure)

Principle: Intaglio process using engraved cells on metal cylinders. Cells carry ink that transfers directly to the substrate.

Key Features

• Very stable tone reproduction and ink density
• Cylinders are durable and reusable across repeat jobs

Advantages

• Exceptional quality for images and gradients
• Best total cost of ownership at very large volumes

Limitations

• High cylinder engraving cost and longer prepress time
• Less flexible when designs change frequently

Typical Applications

• Premium flexible packaging and decorative laminates
• High-volume wrappers and foils

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Offset Lithographic Printing

Principle: Planographic process. Image transfers from plate to rubber blanket to substrate, using the oil-water repulsion principle.

Key Features

• Suited to sheet or web paper and paperboard
• Excellent fine text, lines, and photographic imagery

Advantages

• High quality with tight registration
• Efficient for medium runs of cartons and labels

Limitations

• Limited on stretchable films without special treatments
• Less suitable for variable data

Typical Applications

• Folding cartons and sleeves
• Paper labels and inserts

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Digital Printing (Toner and Industrial Inkjet on web or sheet)

Principle: Plate-free, file-to-press imaging using electrophotography or inkjet.

Key Features

• Supports versioning, serialization, and rapid design changes
• Minimal makeready and waste on short runs

Advantages

• Ideal for personalization and market testing
• Fast lead times, low startup cost

Limitations

• Higher unit cost at long runs
• Substrate compatibility may require primers or certified stocks

Typical Applications

• Short-run and personalized labels and sleeves
• Prototypes and promotional editions
• Late-stage customization before packing

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Screen Printing (Silkscreen)

Principle: Ink forced through a stencil on a mesh screen onto flat or curved items.

Key Features

• Very high ink laydown for opacity and tactile effects
• Works on irregular or 3D shapes

Advantages

• Durable graphics, strong whites, braille and tactile varnish
• Specialty effects: metallics, textured, glow, spot gloss

Limitations

• Slower than flexo or digital for large areas
• Each color requires a separate screen

Typical Applications

• Direct decoration on bottles, jars, tubes, and caps
• Special-effect label overprints

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Industrial Direct-to-Container Inkjet

Principle: Non-contact inkjet heads print directly on 3D objects. Often UV-curable for instant curing.

Key Features

• True late-stage printing on formed containers
• Variable data ready: batch codes, QR, alphanumerics, graphics

Advantages

• No labels required, reduces inventory of preprinted SKUs
• Excellent for short runs and mass customization

Limitations

• Geometry limits and fixturing requirements
• Throughput lower than high-speed label application on very large volumes

Typical Applications

• Direct-to-bottle and can decoration
• Short-run seasonal or localized packaging

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Hot Foil and Cold Foil Stamping

Principle: Metallic or holographic foil is transferred to the substrate using a heated die (hot foil) or UV-curable adhesive and inline transfer (cold foil).

Advantages

• Premium brand accents, security features, high reflectivity
• Works inline with flexo or offset in many lines

Limitations

• Added material and process steps
• Large solid metallic areas may show tooling or lay issues if not controlled

Typical Applications

• Premium labels, folding cartons, and seals
• Logos, borders, and decorative elements

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Process Integration and Finishing

Common inline or nearline steps:

• Varnishing: aqueous, UV, or electron beam for protection and gloss or matte effects
• Laminating: barrier films for food contact or scuff resistance
• Die-cutting and creasing: labels and cartons
• Embossing and debossing: tactile branding
• Coding and marking: lasers or small-character inkjet for dates and batch IDs

Regulatory and Food-Contact Notes

• Use low-migration inks, coatings, and adhesives when required
• Validate set-off and odor for sensitive products
• Align with regional regulations and brand policies on recyclability, deinkability, and compostability

Sustainability Considerations

• Prefer water-based or energy-efficient curing where feasible
• Optimize ink coverage and plate or cylinder reuse
• Design for recycling: avoid incompatible coatings and pigments on mono-material packs
• Reduce waste with accurate color management and right-first-time proofing

See Also

• Color management and proofing for packaging
• Substrate primers and surface treatments
• Packaging compliance for food and cosmetics

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