Slot Die Coating Machine

Types of roll coater methods

FOM Technologies provides high quality state-of-the-art Slot-Die Coating machines produced in Scandinavia. These cutting edge Slot-Die Coater equipment enables researchers, scientists and professionals, to discover, develop and commercialize new functional materials for a cleaner and more sustainable world.

Roll coater methods can be classified based on the state of the coating fluid before coating and whether the coating amount is determined before or after coating. Although some systems employ several methods, this section describes examples of typical coating methods.

The classifications below are merely examples. There are various ways to classify the types, and some may differ from the descriptions below.

Open coating

This method usually has a coating head and a coating reservoir with pooled coating fluid that is exposed to the atmosphere. Typical examples are gravure coaters and reverse coaters.

Gravure coaters

Example of a direct gravure coater

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  1. A. Backup roll
  2. B. Gravure roll
  3. C. Doctor blade
  4. D. Coating reservoir

A gravure roll with an unevenly engraved surface is immersed in the coating fluid in the reservoir. After the coating fluid on the surface of the gravure roll is wiped off with the doctor blade, the fluid remaining in the pits are transferred onto the web of the target (substrate). Changing the coating thickness requires changing the gravure roll to one engraved with a different pattern. Offset gravure coaters provide a smooth and even coated surface at high speeds.

Reverse coaters

Example of a reverse coater
  1. A. Backup roll
  2. B. Applicator roll
  3. C. Metering roll
  4. D. Coating reservoir

Reverse coaters usually consist of an applicator (coating) roll, a backup roll, and a metering roll. The backup and applicator rolls rotate in the same direction to transfer the coating fluid onto the substrate web. The coating thickness is determined by the gap between the applicator roll and metering roll as well as their speed. Care must be taken to prevent unstable rotation due to improper roll assembly, and the accuracy of the gap between the rolls must be noted.

Closed coating

This method prevents coating fluid from being exposed to the atmosphere before coating. This makes it easier to maintain coat quality depending on the coating fluid. Slot die coaters and lip coaters adopt this method.

Slot die coating equipment

Slot die coaters

Example of a slot die coater
  1. A. Die
  2. B. Die lip
  3. C. Coating
  4. D. Backup roll
  5. E. Substrate (web)
  6. F. Coating fluid
  7. G. Die head

Die coaters adopt technology used in extrusion molding to execute the coating process. Coating fluid is passed through a die to create a uniform film, and the film is applied on the substrate to achieve coating. Because the coating fluid is pressure-supplied to the die from an enclosed tank, the fluid is not affected by air, resulting in stable coating.

A slot die coater is a typical die coater that uses a die designed to ensure a uniform amount of coating fluid in the width direction. A shearing force smooths the coat beween the the end of the die, the die lip, and the backup roll.

Slot Die Coaters

In recent years, coating efficiency has been improved with more sophisticated coaters such as multi-layer slot die coaters that coat multiple layers simultaneously.

Lip coaters

Example of a lip coater
  1. A. Backup roll
  2. B. Substrate (web)
  3. C. Lip nozzle
  4. D. Coating
Die

Lip coaters include a numerically-controlled coating head that allows easier quality control. Coating fluid is supplied to the lip nozzle from a lower cavity to the upper cavity at the end of the lip nozzle, where it is applied to a moving substrate. The end of the lip is rounded to generate a shearing force between the tip and the substrate during coating application.

Post-metering coating

'Pre-metering' coaters are coaters that determine the amount of coating at the time of application.

Conversely, coaters that apply additional coating and then remove excess to achieve the target amount are categorized as 'Post-metering' coaters. Knife coaters and blade roll coaters fall into this category. The amount to be removed and the coating thicknesses are mechanically set based on the shape of the roll and the set gap.

Slot Die Coating Machine

Knife coaters

Example of a knife coater
  1. A. Substrate (web)
  2. B. Backup roll
  3. C. Knife roll
  4. D. Applicator roll
  5. E. Pan

Knife coaters consist of a knife roll, backup roll, and liquid dam. The coating fluid in the liquid dam is transferred onto the substrate web through the gap between the turning backup roll and the fixed knife roll. The coating thickness is set based on the gap between the backup roll and the knife roll. With knife coaters, ensuring the accuracy of the backup roll assembly, knife roll blade, and adjustment of the gap between the rolls is important. It is also important to prevent jumping at substrate seams, which affects coating stability and can cause fluid leakage.

Blade roll coaters (with comma-type circular blades)

Example of a blade roll coater
  1. A. Applicator roll
  2. B. Coating
  3. C. Backup roll
  4. D. Substrate (web)

Blade roll coaters are characterized by an applicator roll with a blade, which is called a circular blade, or a comma blade, for its shape. Coating fluid is pooled between the applicator roll and the substrate, and the blade on the roll wipes off excessive fluid to ensure an optimum coating thickness. This method is generally suited for highly viscous coating fluids or when forming a thick coating. However, some models can support various coating thicknesses.

Examples of other methods

In addition to the above, various other methods are available according to the coating purpose or the properties of the substrate or coating fluid. Some use applicator rolls in different shapes, various reverse rolls and offsets, or a combination of other rollers and methods. The following introduces a few such examples.

Blade coaters

A doctor blade and backup roll maintain uniform thickness to allow smooth coating at high speeds. With this method, streaks (linear defects) are a concern.

Chamber doctor coaters

Coating fluid is supplied from a chamber, which prevents the emission of solvent smells and changes in viscosity while also allowing for easy blade replacement. This method can be used for direct gravure coating or reverse gravure coating.

Bar coaters

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After coating, a bar makes the coated surface uniform. This system is suitable for small-quantity and high-speed coating of undercoats and topcoats.

Air knife (air doctor) coaters

These coaters are suitable for water-based coating fluids. After coating, pressurized air is applied to make the coated surface uniform. This method is less affected by the substrate thickness or uneven surfaces.

In the Slot Die process, the coating is pressed out by gravity or under weight through a slot and onto the substrate. In the event that the coating is 100% solids, the process is termed 'Extrusion' and for this situation, the line velocity is regularly much speedier than the rate of the extrusion. This empowers coatings to be significantly more slender than the width of the slot. Slot Die Coating is a repeatable, solid coating strategy that keeps on gaining support in a mixed bag of coating.

We at KERONE are having 40+ years experience in designing and manufacturing various types of specialized coating and impregnation plants for various industrial processing needs of our clients. We are having immense experience in designing and manufacturing of Slot Die coating machine that can best fit for the size and various processing requirements of the client’s business. The Slot Die coating machines manufactured by KERONE are made with high quality internal and external material by taking discreet efforts for the perfect coat and uniform heat distribution.

Advantages

Slot Die Coating

  • Able to Coat Organic or Inorganic Liquids on flexible or rigid substrates
  • Excellent coating uniformity (typically ±3% or better)
  • Capable of coating a wide range of process materials: high and low viscosity fluids
  • Deposit a wide range of thicknesses
  • High efficiency / high material utilization: typically 96% process material utilization
  • Technology proven scalable from small R&D to large panel, high volume/mass production
  • Highly reliable and robust process
  • High throughput (low TACT) processing