There are several advantages of electron beam (EB) based coating. The electron beam (EB) based coating is faster and more effective than CVD and sputtering. It also produces thinner and more uniform films than either method. The coatings produced are durable and have high scratch resistance. The thin film thickness can be controlled precisely.
Plasma activated electron beam (EB) based coating offers potential market growth. This process enhances electron beam coating by pretreating the substrate. Its application in the food packaging industry is another potential market growth. The report segments the Electron Beam coating market according to source, application, and end-users. The research is conducted across different regions to identify the key factors driving the market. This report provides an overview of the various markets in the world.
The target material is placed in a crucible or a socket in a vacuum chamber. A tungsten filament is inserted below the target material, which acts as the negative charge, and is covered by a magnetic field. This magnetic field applies a high voltage of electrons to the target material. The substrate is then placed above the target material, acting as a diode with a positive charge.
Electron beam (EB) based coating is an ideal solution for flexible packaging. The coatings are cured by ion beams, which prevent the film from sticking. In addition, the electron beam can be used for medical applications, food packaging, and general-purpose applications. The technology also helps reduce the cost of coating and can eliminate the need for lamination. The application of EB-PVD in the food packaging industry is another promising trend.
Electron beam (EB) based coating allows for the direct transfer of energy to the target material. This method can produce much higher deposition rates and a greater density film coating. This technology is also more efficient and results in better adhesion to the substrate. There are also many benefits of this method. It has a higher sensitivity to light and is compatible with materials with high melting points.
As per report available at Coherent Market Insights, growth ofElectron Beam (EB) Based Coating Marketis expected to be hampered by the availability of cheaper alternatives such as UV coatings in the market.
The electron beam (EB) based coating process is the fastest and most effective method for coatings. This process converts liquid to a solid film. The coatings are durable and have superior adhesion. EB coatings can be used for virtually any coating application. A wide range of materials can be coated. There are many benefits of this method. Unlike solvent-based coatings, it has high adhesion and is more resistant to scratching.
Electron beam (EB) based coating is an excellent alternative to lamination because it retains the positive characteristics of lamination. It gives the coated material longer shelf life and helps improve recycling efforts. EB-coating can enhance the adhesion and functionality of the finished product. However, unlike a conventional coating, there are no side effects from Electron Beam coating. The process can be performed in an almost unattractive manner.
The main advantage of electron beam (EB) based coating is that it eliminates the need for lamination. EB coatings are suitable for medical applications and are used in general-purpose applications, including packaging for food and pharmaceuticals. The method is widely applicable for coatings. The main disadvantage of EB-coating is that it has limited adhesion. The process is expensive, and a high-gloss finish will increase the cost.
