Solvents in Gravure Inks: Selection, Evaporation Rate, and VOC Compliance
The Role of Solvents in Gravure Ink Performance
Gravure printing relies on ink being drawn from engraved cells and transferred to a moving substrate at speeds up to 400 m/min. Solvent must evaporate almost completely in the drying zone — typically 4–8 m of tunnel dryer at 60–100°C — leaving a dry, flexible, adherent film.
Solvent choice affects every aspect of gravure ink performance: viscosity at press temperature, drying speed, resin solubility, substrate wetting, and residual solvent in the finished package. For food packaging, residual solvents above 5 mg/m² trigger organoleptic complaints and may breach regulatory limits.
Solvent Classification and Evaporation Rates
Solvents are characterised by their relative evaporation rate (RER), measured relative to n-butyl acetate = 1.0.
Common Gravure Ink Solvents
| Solvent | RER | Boiling Point (°C) | Main Resin Compatibility | VOC Status |
|---|---|---|---|---|
| Ethyl acetate | 4.1 | 77 | Nitrocellulose, polyurethane | VOC (exempt in some regions) |
| n-Propyl acetate | 2.3 | 102 | Nitrocellulose, acrylic | VOC |
| Isopropanol (IPA) | 1.7 | 82 | Nitrocellulose (diluent) | VOC |
| Ethanol | 1.7 | 78 | Wide range | VOC (exempt denatured) |
| n-Butyl acetate | 1.0 | 126 | Polyurethane, acrylic | VOC |
| Methoxypropanol (PM) | 0.4 | 120 | Acrylic, polyurethane | VOC |
| Diacetone alcohol | 0.17 | 166 | Acrylic, epoxy | VOC |
Fast solvents (RER > 3): Ethyl acetate and MEK dominate fast-drying formulations. They are excellent nitrocellulose solvents and evaporate readily at 60°C dryer temperatures. Limitation: they can cause blushing in humid conditions (> 65% RH) as moisture is drawn in during evaporation, precipitating resin.
Medium solvents (RER 1–3): Propyl acetate and IPA are used as co-solvents to balance drying speed, prevent blushing, and reduce VOC intensity. IPA is a weak solvent for most resins (latent solvent only) but critically important in nitrocellulose systems to prevent gelation.
Slow solvents (RER < 1): Methoxypropanol, diacetone alcohol, and glycol ethers are used in small amounts (3–8%) as tail solvents to ensure complete film coalescence and prevent cratering. However, excessive slow solvent causes residual solvent problems in the final package.
Toluene-Free Formulation
Toluene was the industry standard gravure solvent for decades — excellent solvency, low cost, fast evaporation. However, toluene is classified as a reproductive toxin (Category 2 under EU CLP) and is banned in food contact ink formulations in the EU, US, and most Asian markets.
Toluene-free (TF) gravure systems rely primarily on ethyl acetate/IPA blends for publication gravure and n-propyl acetate/ethanol for packaging gravure. Key differences to manage:
- Resin solubility: Toluene-free systems cannot dissolve hydrocarbon resins (used for adhesion to polyolefins) directly. Use maleic-modified or polar grades.
- Viscosity stability: TF blends are more sensitive to temperature. A 10°C drop can increase viscosity by 15–25% versus 8–12% for toluene systems.
- Electrostatic assist (ESA): TF solvents alter the conductivity profile of the ink; ESA settings must be recalibrated.
VOC Regulations and Compliance
EU: Industrial Emissions Directive (IED)
The EU IED (2010/75/EU) sets emission limits for printing operations using > 5 tonnes of solvent per year:
- Total VOC emissions: ≤ 100 mg C/Nm³ in exhaust gases (after abatement)
- Residual emissions standard: 5–10% of total solvent input
- Compliance routes: abatement plant (oxidation/adsorption), solvent management plan, or low-VOC inks (< 200 g/L)
US: EPA NESHAP for Printing
The US National Emission Standards for Hazardous Air Pollutants (40 CFR Part 63, Subpart KK) targets HAP solvents (toluene, xylene, ethylbenzene, MEK). Facilities using > 10 t/year of HAPs must implement maximum achievable control technology (MACT).
Ethyl acetate, n-propyl acetate, IPA, and ethanol are not classified as HAPs and offer a clear compliance pathway.
China: GB Standard for Packaging Printing
China's GB 38507-2020 limits toluene in food packaging inks to ≤ 3% (by mass). VOC emission standards under local environmental permits vary by province, with Beijing and Shanghai requiring ≤ 50 mg/m³ exhaust concentration.
Solvent Blend Optimisation
A practical approach to gravure ink solvent blend design uses Hansen solubility parameters (HSP) to predict resin compatibility:
- Define the HSP of the resin (e.g., nitrocellulose: δD = 15.4, δP = 14.7, δH = 8.8 MPa^0.5)
- Calculate the weighted average HSP of the solvent blend
- Ensure the blend HSP falls within the resin's solubility sphere (radius R₀ typically 5–7 MPa^0.5)
Example: A 65:25:10 blend of ethyl acetate / IPA / n-propyl acetate gives δD = 15.6, δP = 7.2, δH = 8.9 — well within the solubility sphere of most nitrocellulose grades.
Flash Point Considerations
Gravure presses operate with open ink trays and hot dryers — fire and explosion risk is significant. Solvent blends must be managed to keep the vapour concentration below the lower explosive limit (LEL). Key flash points:
| Solvent | Flash Point (°C) | LEL (% v/v) |
|---|---|---|
| Ethyl acetate | −4 | 2.0 |
| IPA | 12 | 2.0 |
| n-Propyl acetate | 14 | 1.7 |
| Ethanol | 13 | 3.3 |
| MEK | −9 | 1.4 |
All common gravure solvents are Class IB or IC flammable liquids. Presses must be ATEX-rated, with LEL monitors in dryer and ink-tray zones set to alarm at 25% LEL and shut down at 50% LEL.
Residual Solvent Management
Residual solvent in finished flexible packaging is measured by headspace GC-MS per EN 13628 or ASTM F1770. Typical limits for food-contact flexible packaging:
- Total residual solvents: ≤ 10 mg/m²
- Aromatic solvents (toluene, xylene): ≤ 0 (not detectable)
- Ethyl acetate: ≤ 5 mg/m² (odour threshold ~0.3 mg/m²)
- IPA: ≤ 10 mg/m²
Minimising residuals requires: (1) reducing slow-solvent tail to < 5% of total, (2) maintaining dryer exhaust velocity > 2 m/s, (3) checking press speed against dryer rating at each substrate weight, (4) winding at full diameter before core temperature exceeds 35°C.
Summary
Solvent selection in gravure inks involves balancing evaporation rate, resin compatibility, regulatory compliance, and safety. Toluene-free systems based on ethyl acetate, n-propyl acetate, and IPA dominate modern food packaging gravure and satisfy EU, US, and Chinese VOC and food contact regulations. Solvent blend HSP modelling, careful management of slow-solvent tail, and rigorous residual solvent testing are essential tools for any gravure formulator. Chemzip supplies a range of gravure ink solvents and resin systems optimised for toluene-free operation across polyolefin, polyester, and aluminium foil substrates.