Various packaging grade BOPP films and a PET base film (all corona treated in-house by the film producers), as well as a BOPP film coextruded with a special high surface energy polymer as a skin layer were coated with an aluminum oxide barrier layer. The coatings were applied to the corona treated side of each film and the high surface energy polymer skin layer, respectively. All standard packaging grade BOPP films
The barrier performance obtained for the plain BOPP films and the AlOx coated films is summarized in Table 1. Also listed in this table are the results for a PET reference film and the results following different plasma treatments. These values were used to determine the barrier improvement factor (BIF) for each transmission rate (i.e. transmission rate ratio of uncoated to coated film), which is a quality indicator commonly used to characterize the effect of vacuum deposited barrier coatings.
Barrier properties of packaging grade PET and BOPP films, coated with aluminum oxide via reactive thermal evaporation, are strongly affected by the surface characteristics of the plain film, such as surface defects and surface chemistry. These parameters have a large impact onto the aluminum oxide coating nucleation, growth and structure and not only vary to a large extent between the different polymer film types, but can also change significantly within one substrate type, as has been shown
R2R (Roll-to-Roll) web aluminum vacuum metallizers are machines used to deposit a thin layer of aluminum onto flexible substrates in a continuous process, which is commonly employed in a variety of industries such as packaging, electronics, automotive, and decorative applications.
R2R web aluminum vacuum metallizers typically consist of various components, such as an unwind station to feed the substrate roll, a cleaning section to remove contaminants, a pre-treatment section to enhance adhesion, a metallization chamber where evaporation takes place, and a cooling section to solidify the aluminum layer, followed by a winding station. This process offers numerous advantages, including high production speeds, excellent control over the thickness and uniformity of the aluminum layer, and the ability to process various flexible substrates like plastic films, paper, foils, and textiles. It is important to bear in mind that certain details and features of R2R web aluminum vacuum metallizers may vary depending on the manufacturer and purpose.
The RT-R2R Web Aluminum Vacuum Metallizer comes with a range of features that make it an ideal choice for production. The high throughput feature of this machine allows for reduced production costs. It also comes equipped with a heavy-duty deposition layer, which makes it suitable for high barrier applications.
In addition, it features a free-span process that eliminates the use of a drum line and edge trims. This makes it friendly to low tension substrates such as CPP, BOPP and LDPE. Furthermore, it allows for individual wire feeders which enable easy maintenance.
The machine also features a precision web handling mechanism with servo motor drives which help in accurate control at varying line speeds. Finally, what makes the RT-R2R Web Aluminum Vacuum Metallizer stand out is its compact design and minimal space requirements which make it easy to install even in tight spaces.
R2R web vacuum metallizing is a process for depositing a thin layer of metal, usually aluminum, onto a flexible substrate in a continuous roll-to-roll manner. During this process, there are a number of key steps involved, as follows:
The process begins with a roll of the flexible substrate. This is unwound and fed into the metallizing machine. The substrate may pass through a cleaning section to remove any surface contaminants that could affect the metal coating.
Following any cleaning, the substrate may undergo pre-treatment processes such as corona treatment or primer application to enhance the bonding between the substrate and the metal layer.
The substrate enters the metallization chamber, which is maintained at a high vacuum, containing a series of evaporation sources or cathodes with the metal (such as aluminum) to be deposited.
The metal within the evaporation sources is heated to its evaporation point. The metal then forms a vapor cloud within the chamber. The vaporized metal atoms travel in straight lines and condense onto the moving substrate, forming a thin, uniform metal layer.
The coated substrate passes through a cooling section, where the metal layer solidifies and stabilizes.
The metallized substrate is wound onto a roll, ready for further processing or use in various applications.
The details of the R2R web vacuum metallizing process can vary depending on factors such as the desired metal coating, substrate material, and intended application. It can be optimized to control factors like coating thickness, adhesion, and uniformity to meet specific requirements.
R2R web vacuum metallizing offers advantages such as high production speeds, precise control over coating thickness, excellent adhesion, and the ability to process a wide range of flexible substrates, making it a versatile and widely used technique in various industrial settings.
R2R web vacuum metallizers can be designed with different configurations, including FREEN SPAN and drum-supported coating systems. Here's how these two configurations differ:
Advantages of FREEN SPAN configuration:
Advantages of Drum-Supported coating configuration:
Both FREEN SPAN and drum-supported coating configurations have their advantages depending on the specific application requirements. The choice of configuration often depends on factors such as web width, substrate type, desired coating quality, and production volume. Manufacturers select the configuration that best suits their needs to achieve optimal coating results and production efficiency.
Content | Free Span | Drum Supported |
Applied Materials | PET,OPP,CPP, PET,PVC etc. | PET, Paper and PI etc. |
Coating Time | Post deposition | During deposition |
Uncoated Film Edge | None | Yes |
Aluminum Consumption | Low | High |
Two-sides Coating | Available | Unavailable |
Heavy Deposition | Good | Better |
Light Deposition | Better | Good |
Deposition Uniformity | Better | Good |
Deposition Adhesion | Better | Good |
Drum Line Control | Better | Good |
Low Tension Polymer Web | Better | Good |
Vacuum Web (Roll) Coating, also known as R2R (Roll-to-Roll) web vacuum metallizing equipment, is a coating process of a thin, flexible material (web) in the form of a roll that is unwound, coated in a vacuum environment, and rewound in a continuous operation. The roll of material can have a width of several inches to 10 feet, a length of tens of thousands of feet, and a weight of thousands of lb. Moreover, the coating speed can reach an impressive 2000~3000 feet-per-minute, as displayed in Figure 1.
This technology is employed in various industries to enhance the visual appeal and functionality of products. It is popularly used in the packaging industry to provide a glossy, metallic appeal, improve barrier properties, and offer moisture resistance. Additionally, this process finds application in decorative elements in automotive, electronics, appliances, and consumer goods, as well as reflective films, lighting fixtures, and solar reflectors. Finally, metallized coatings are used as security features in products to prevent counterfeiting.
The versatility of the process allows for a wide range of possibilities in terms of functional and decorative coatings on flexible substrates, making R2R web vacuum metallizing indispensable in many industries.
At Roll To Roll Coating Machine, we provide comprehensive technical support and services to ensure that our customers have a successful coating experience.
We offer a range of support services, including:
Our goal is to make sure that our customers get the most out of their Roll To Roll Coating Machine products. So if you have any questions or need any help, please do not hesitate to contact us.