Jayashri Bhadane, Transparency Market Research Editorial Team09.07.23
Gravure printing has become one of the most often-used printing ink technologies for large-scale printing, while not being a household phrase. Gravure printing inks are used to produce magazines, gift-wraps, wallpaper, and packaging.
According to Transparency Market Research, the demand for gravure printing inks will boom among various global printing ink manufacturers for its various advantages over traditional inks. As a result, the global market for gravure printing ink is anticipated to record a steady 4.3% CAGR from 2023 to 2031.
In this blog, we will discuss some of the crucial facets of innovative gravure printing inks. We will throw some light upon what is the role of the packaging sector in boosting the demand for these printing inks, what are the various parts and processes involved in modern-day gravure printing technology, and web-fed gravure printing.
Role of the Packaging Industry in Boosting the Demand
Packaging is an important aspect across industries like food and drinks, medicines, and consumer products. As a favored printing technique for packaging materials including flexible packaging, labels, and shrink sleeves, gravure printing ink is gaining popularity.
The demand for packaged goods has increased as a result of rapid urbanization as well as lifestyle modifications. This is expected to increase consumer acceptance of eye-catching and informative packaging. To develop their identity and stand out in a congested market, brands are making use of packaging. Gravure printing makes it easier to realize complex branding components and design intricacies.
Certain characteristics of this kind of packaging printing are enhancing its global applications. Some of them are:
• Enhanced Quality of Print: Gravure printing provides high print quality, making it possible to recreate complicated designs, clear pictures, and vivid colors on packaging materials. Gravure printing inks make sure that the finished printed packaging items are beautiful and eye-catching, which is crucial for drawing customers to the shelves of retail stores.
• Material-friendly and Versatility: These inks can be applied to a variety of substrates, such as paper, foil, and film, as well as different kinds of polymer compounds. Gravure printing is excellent for a variety of packaging applications, including flexible packaging, cartons, labels, and more owing to its versatility.
• Reproducibility and Consistency: Gravure printing inks produce accurate and reproducible results even over lengthy print runs. For packaging manufacturers, maintaining consistency in the packaging and branding design across various goods and batches is critical, which can be easily attained by this ink technology.
• Owing to these factors, gravure printing inks have become a mainstream option for the packaging giants as well as for start-ups. It is efficient, consistent, and cost-effective.
Modern-Day Gravure Printing
In the present-day gravure printing press, the printing cylinder has been laser carved with tiny cells that can hold ink and whose size and pattern correspond to the desired picture. By applying pressure and capillary action, these cells are compelled to transfer the pigment right onto the substrate, resulting in the printed image.
A gravure printing press is laid out in an in-line configuration, with the necessary number of printing units arranged along a horizontal axis. Each unit in a modern-day gravure printing machine consists of:
• Printing Cylinders: The picture to be printed is etched on a seamless tube sleeve or entire cylinder consisting of aluminum, steel, plastic, or a composite material.
• Impression Roller: It is a rubber-coated sleeve set on a steel mandrel. The substrate is pressed against the printing cylinder as its main function.
• Doctor Blade: the tool that cleans excess ink off the engraved areas within the printing cylinder as well as the non-engraved areas.
• Drying System: includes a chamber that dries the ink after it has touched the substrate but before it gets to the following printing unit. The needed printing speed, ink type (be it solvent or water-based), and ink lay-down volume are used to calculate dryer capacity.
• Inking System: comprising an ink pump with both supply and return ink pipes, an ink pan, as well as an ink storing tank.
Some other recent innovations in the modern-day scenario are:
• Digital Gravure Printing: Hybrid systems are gaining popularity in the domain of packaging printing as they combine the benefits of digital printing with that of gravure ink technology. These methods preserve the high quality and effectiveness of gravure for longer print runs while enabling customization and variable data printing.
• Industry 4.0 Capabilities: To meet the demands of the Industry 4.0 trend, gravure printing ink machines are increasingly adding connectivity and automation capabilities. For increased productivity and less downtime, this also incorporates automatic task switching, real-time observation, and data analytics.
In addition to this, gravure printing can include sophisticated security elements like holograms, microtext, and special codes to prevent counterfeiting within packaging and labeling sectors.
An Innovation in the Web-Fed Gravure Printing
With several technological advancements, gravure printing inks is gaining traction since it is much simpler than conventional copper plating. Publication presses are currently as broad as four meters (or 142 inches). Short runs are being prioritized in the development of gravure presses for packaging, which can help the gravure process maintain its competitiveness.
High printing speed lowers dot gain as well as dot distortion, enhancing the quality of the printed image. The number of skipped dots is decreased and the consistency of ink dispersion within the dot is improved using electrostatic assistance. In the near future, such developments will create new opportunities in the gravure printing industry.
Modern printing is highly concerned with sustainability. Gravure printing ink innovations have improved energy efficiency as well as the creation of more environmentally friendly inks and varnishes. To lessen their influence on the environment, solventless and water-based inks are becoming increasingly popular.
These inks are becoming more and more popular as printing ink manufacturers are able to concentrate on their brand value and give customers personalization options. The perception of product quality as well as brand value are enhanced by premium packaging including detailed patterns and vivid colors. Packaging with gravure printing exudes an impression of high quality, which may affect customer views and purchase decisions.
Gravure printing enables package designs to be personalized and tailored to meet the needs of certain marketing campaigns, seasonal sales, or limited editions. This adaptability facilitates customer interaction for brands.
Modern gravure printing has undergone significant changes as a result of the need for greater productivity, better print quality, decreased environmental impact, and more flexible and personalized printing options. Gravure printing inks will probably keep evolving as long as technology does to keep up with the changing demands of diverse sectors.
According to Transparency Market Research, the demand for gravure printing inks will boom among various global printing ink manufacturers for its various advantages over traditional inks. As a result, the global market for gravure printing ink is anticipated to record a steady 4.3% CAGR from 2023 to 2031.
In this blog, we will discuss some of the crucial facets of innovative gravure printing inks. We will throw some light upon what is the role of the packaging sector in boosting the demand for these printing inks, what are the various parts and processes involved in modern-day gravure printing technology, and web-fed gravure printing.
Role of the Packaging Industry in Boosting the Demand
Packaging is an important aspect across industries like food and drinks, medicines, and consumer products. As a favored printing technique for packaging materials including flexible packaging, labels, and shrink sleeves, gravure printing ink is gaining popularity.
The demand for packaged goods has increased as a result of rapid urbanization as well as lifestyle modifications. This is expected to increase consumer acceptance of eye-catching and informative packaging. To develop their identity and stand out in a congested market, brands are making use of packaging. Gravure printing makes it easier to realize complex branding components and design intricacies.
Certain characteristics of this kind of packaging printing are enhancing its global applications. Some of them are:
• Enhanced Quality of Print: Gravure printing provides high print quality, making it possible to recreate complicated designs, clear pictures, and vivid colors on packaging materials. Gravure printing inks make sure that the finished printed packaging items are beautiful and eye-catching, which is crucial for drawing customers to the shelves of retail stores.
• Material-friendly and Versatility: These inks can be applied to a variety of substrates, such as paper, foil, and film, as well as different kinds of polymer compounds. Gravure printing is excellent for a variety of packaging applications, including flexible packaging, cartons, labels, and more owing to its versatility.
• Reproducibility and Consistency: Gravure printing inks produce accurate and reproducible results even over lengthy print runs. For packaging manufacturers, maintaining consistency in the packaging and branding design across various goods and batches is critical, which can be easily attained by this ink technology.
• Owing to these factors, gravure printing inks have become a mainstream option for the packaging giants as well as for start-ups. It is efficient, consistent, and cost-effective.
Modern-Day Gravure Printing
In the present-day gravure printing press, the printing cylinder has been laser carved with tiny cells that can hold ink and whose size and pattern correspond to the desired picture. By applying pressure and capillary action, these cells are compelled to transfer the pigment right onto the substrate, resulting in the printed image.
A gravure printing press is laid out in an in-line configuration, with the necessary number of printing units arranged along a horizontal axis. Each unit in a modern-day gravure printing machine consists of:
• Printing Cylinders: The picture to be printed is etched on a seamless tube sleeve or entire cylinder consisting of aluminum, steel, plastic, or a composite material.
• Impression Roller: It is a rubber-coated sleeve set on a steel mandrel. The substrate is pressed against the printing cylinder as its main function.
• Doctor Blade: the tool that cleans excess ink off the engraved areas within the printing cylinder as well as the non-engraved areas.
• Drying System: includes a chamber that dries the ink after it has touched the substrate but before it gets to the following printing unit. The needed printing speed, ink type (be it solvent or water-based), and ink lay-down volume are used to calculate dryer capacity.
• Inking System: comprising an ink pump with both supply and return ink pipes, an ink pan, as well as an ink storing tank.
Some other recent innovations in the modern-day scenario are:
• Digital Gravure Printing: Hybrid systems are gaining popularity in the domain of packaging printing as they combine the benefits of digital printing with that of gravure ink technology. These methods preserve the high quality and effectiveness of gravure for longer print runs while enabling customization and variable data printing.
• Industry 4.0 Capabilities: To meet the demands of the Industry 4.0 trend, gravure printing ink machines are increasingly adding connectivity and automation capabilities. For increased productivity and less downtime, this also incorporates automatic task switching, real-time observation, and data analytics.
In addition to this, gravure printing can include sophisticated security elements like holograms, microtext, and special codes to prevent counterfeiting within packaging and labeling sectors.
An Innovation in the Web-Fed Gravure Printing
With several technological advancements, gravure printing inks is gaining traction since it is much simpler than conventional copper plating. Publication presses are currently as broad as four meters (or 142 inches). Short runs are being prioritized in the development of gravure presses for packaging, which can help the gravure process maintain its competitiveness.
High printing speed lowers dot gain as well as dot distortion, enhancing the quality of the printed image. The number of skipped dots is decreased and the consistency of ink dispersion within the dot is improved using electrostatic assistance. In the near future, such developments will create new opportunities in the gravure printing industry.
Modern printing is highly concerned with sustainability. Gravure printing ink innovations have improved energy efficiency as well as the creation of more environmentally friendly inks and varnishes. To lessen their influence on the environment, solventless and water-based inks are becoming increasingly popular.
These inks are becoming more and more popular as printing ink manufacturers are able to concentrate on their brand value and give customers personalization options. The perception of product quality as well as brand value are enhanced by premium packaging including detailed patterns and vivid colors. Packaging with gravure printing exudes an impression of high quality, which may affect customer views and purchase decisions.
Gravure printing enables package designs to be personalized and tailored to meet the needs of certain marketing campaigns, seasonal sales, or limited editions. This adaptability facilitates customer interaction for brands.
Modern gravure printing has undergone significant changes as a result of the need for greater productivity, better print quality, decreased environmental impact, and more flexible and personalized printing options. Gravure printing inks will probably keep evolving as long as technology does to keep up with the changing demands of diverse sectors.