Through tireless research and development, it has been discovered that treated surfaces are more reliable and better than untreated surfaces. This is why virtually all industries are gravitating towards plasma treatment to prepare surfaces for other applications.
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Plasma treatment machines have helped redefine surface treatment and raise the standards regarding product quality. Material surface modification has never been better with plasma technologies.
Are you new to plasma treatment? Are you familiar with this surface treatment method but think you could still use some help? Read through this comprehensive guide to plasma treatment to get all the necessary information.
A good number of solid materials cannot bond well with other components because they lack the required surface energy. This also makes it challenging to paint and coat such surfaces.
So, plasma treatment is used to alter such material surfaces, making them more fit for various applications. The way it works is that it changes the surface properties of the target surface, making it good enough to accommodate other components.
After plasma treatment, the adhesion property of the material is automatically enhanced. As a result, bonding, gluing, and panting will become much easier on the surface.
Plasma treatment makes a surface more receptive to foreign components. It is also a means to clean the surface and eliminate unwanted materials.
There are different types of plasma treatments – they all have their different advantages. Knowing what makes one type different from another will assist you in deciding where to put your hard-earned money. The various plasma treatments will be explained below.
This plasma treatment method is unique because it implements reduced-temperature plasma to carry out surface alteration. In this treatment method, plasma, with the help of the charge created by the gas mixture, combines with the material surface, to alter it eventually.
The industries that use plasma treatment for one application or the other have continued to grow over time. For instance, this surface treatment technology has become renowned in the semiconductor, automotive, and medical device industries.
Plasma treatment is all about altering surface characteristics. As for vacuum plasma treatment, it can be used on metals, plastics, textiles, and ceramics. It has proven to be effective in enhancing material performance in different industrial applications.
Atmospheric plasma treatment is one of the most effective surface treatment technologies in recent times. This plasma treatment is primarily used to clean, prepare, and coat various material surfaces.
It is highly efficient for glass, metal, and plastic surfaces. Manufacturers are also using this particular treatment to clean and activate recycled materials.
This treatment does not require any low-pressure, confined spaces to produce its plasma. The plasma can be created in the atmosphere at regular pressure. Atmospheric plasma treatment is excellent and suitable for several industries, like the semiconductor industry.
This plasma treatment process uses low-temperature plasma to modify material surfaces. The corona plasma is usually created from high frequency and high voltage.
This unique treatment technology is used to improve surface energy for many materials, increasing adhesion and wettability.
This treatment is commonly applied on paper and foils to enable adhesives, ink, and coating to last much longer. This treatment process is not new to engineering applications, making it a trusted method across several industries.
Industries such as automotive, packaging, and printing use this method to increase adhesion and surface energy.
This plasma treatment engages material surfaces with extreme temperatures to modify their characteristics. The oxygen-based, hot-air plasma is formed from air and natural gas in a controlled environment.
After subjecting the target surface to the flaming temperature, the surface becomes cleaned and activated for various applications.
Flame plasma treatment can improve the adhesion of a material and increase its wetness, too. Not only that, this plasma treatment process is equally exceptional for post-treatment applications in a couple of industries.
Flame plasma treatment is utilized in industries such as plastics, textiles, and coatings for surface activation and bonding enhancements.
Plasma etching refers to blasting a substrate surface with high-speed plasma so that unwanted items can be removed from the surface. The plasma is normally produced by a mixture of gases. The process leverages highly reactive and energetic species to undertake the removal of contaminants..
This technology is getting all the attention in the semiconductor industry and other sectors. Plasma etching offers superior precision, scalability, and uniformity for miniature fabrication applications.
Plasma treatment technology has consistently evolved over time due to its benefits. Plasma treatment is considered superior to other similar treatment solutions for the following reasons;
Plasma treatment remains reliable for cleaning and activating material surfaces because it guarantees improved adhesion. The overall aim of this technology is to make surfaces better prepared to receive other components.
Adhesive efficacy on treated surfaces has increased tremendously because of plasma treatment. Components can now last the test of time, eventually translating to better product quality and enhanced performance.
Most industries prefer plasma-treating processes because they are incredibly eco-friendly. The main component of a plasma treatment process is the plasma itself. The reaction between the plasma and the target surface leads to the surface modification.
One common thing between all the plasma treatments mentioned here is that they do not negatively impact the environment. This differs from other surface cleaning solutions that employ certain unregulated chemicals for surface preparation.
Some others subject the material surface to very high temperatures, which could lead to material deformation. With plasma treatment, there is no need to bother about any of those extremes.
Plasma technologies are getting increasing patronage across the globe because of their material preservation ability.
This is why plasma cleaning solutions rank among the best and most accurate in surface cleaning and activation.
Only the unwanted material surface area is affected after application. And it is so thorough in its cleaning that it can create a uniform outlook across the surface applied.
Some surface cleaning solutions claim to be cost-effective but end up becoming a complete disaster.
Industries that engage in plasma treatment do not need to second-guess their investments. The technology is cheaper and more effective than many other options.
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Industries are spending much less on plasma treatment solutions and are getting real value for their money. These treatment processes are inexpensive because of how the plasma is formed.
Plasma treatment technologies enjoy several applications in various industries. This technology has offered nothing but top-notch surface cleaning and preparation services right from time. Check out some of those industries below:
Plasma treatments’ increased adoption in the electronics industry can be traced to their ability to completely eliminate inorganic and organic contaminants. It primarily cleans semiconductors, electronic components, and printed circuit boards.
It enhances surface wetness while boosting adhesion characteristics. This treatment makes surfaces better fit for coating, encapsulation, and soldering.
Several statistics show that automotive parts are better off with plasma treatment technology. That is because residues and contaminants of various types had marred adhesion in the past.
All that has changed because plasma-treating solutions have improved the accuracy and reliability of surface cleaning.
Besides component adhesion, this technology also promotes corrosion resistance. Thanks to plasma treatment, automotive manufacturers can boast better product quality and longer lifespan.
The aerospace industry employs some of the most specialized and sensitive parts. The slightest mistake in this industry can lead to untold disasters.
If a component needs to be bonded to a surface, it has to be done accurately. There is no room for mistakes.
Thankfully, plasma treatment technology has shown that it is equal to the task. It has improved bonding strength and product performance in this industry to almost 100%. Plasma solutions remove contaminants from surfaces in an effective way.
The medical device industry also has its fair share of plasma treatment applications. This treatment process is used to sterilize various medical devices. Its application in this sector has increased product reliability and users’ safety.
Medical devices are better sterilized with plasma cleaning, ultimately making medical procedures safer. This has also reduced the spread of contagious diseases that could be spread through unsterilized objects.
Plasma treatment enhances printing quality in the printing and labeling industry. It does so by ensuring better ink resolution and adhesion. This technology has upgraded packaging materials through long-lasting and high-quality prints.
Choosing the right plasma treatment for your surface cleaning needs cannot be overemphasized. Considering the following factors will help you achieve optimal surface cleaning and activation:
By now you already know that there are various plasma treatments, with all of them offering different benefits. Carefully assess your surface cleaning projects and place it against the various plasma treatments to ascertain the best fit.
Establish the kind of surfaces you intend to clean and activate. Find out if the contaminants are organic or inorganic.
What will be the pressure and temperature conditions where this technology will be used? Sort out all the requirements before commencing anything.
The desired efficiency of the plasma treatment machine also needs to be known from the onset. How much of the contaminants do you want to remove? What are your expectations for surface characteristics?
Determine the machine’s power source and gas compatibility. Check the machine’s chamber’s size to be sure it can meet your expectations. The outcome of your evaluation will help give you a clear insight into what’s best for you.
Speaking with experts will help you in choosing the right plasma treatment technology.
For more than 30 years, 3DT LLC has been a leading provider of specialized corona and plasma surface treatments for customers around the world. Our state-of-the-art systems can be used as stand-alone stations, incorporated into new and existing production processes, or integrated into fully or semi-automated production lines. With 3DT’s 2- and 3- dimensional treating systems and a wide variety of custom configurations, we have a solution for virtually any application. In addition to manufacturing our cutting-edge equipment, we offer services such as design, manufacturing, product handling, installation, training, and maintenance service.
One of the more common questions we field about electrical surface treatment is, “What is the difference between corona and plasma treatment?” and then, “What best fits my application?” Both corona and plasma treatment increase the surface energy of numerous materials improving the adhesion of inks, adhesives, coatings, and other agents. However, they both have unique properties that require consideration in terms of applications.
In this post, we discuss the advantages and uses of corona treatment vs. plasma treatment, to aide in your understanding. However, our sales team will actively guide you in selecting the best system for your material, process and application.
Corona and plasma treatment are both forms of electrical surface treatment. They use the power of electrical energy to change the chemical properties of material placed within an energy stream. This stream of electrically loaded molecules causes an intensified reaction with the material resulting in better wettability and stronger bonding traits. Electrical surface treatment is highly suitable for three-dimensional polymer parts, thin film, rubber profiles, glass labware, metal parts, coated paperboard and thicker materials such as foam and solid sheets of material.
When this phenomenon is contained inside an electrically grounded chamber, an air stream can be introduced to this chamber to force the plasma outwards in a controlled fashion and onto materials in a process called plasma treatment or atmospheric plasma treatment. However, when an insulator is placed between the two electrodes, the avalanche effect is avoided and the result is a cloud or arc of ionized air. This ionized air – Corona Discharge – can now be used for the surface treatment of a wide number of materials that show poor or no adhesion properties to media such as printing inks, adhesives, etc.
Plasma discharge has a relatively narrow treating width but is capable of imparting enormous surface energies onto substrates. Plasma has the added benefit of cleaning residue and contaminants from surfaces and even etches surfaces for the added benefit of increasing bonding with media. Plasma discharge is virtually potential-free so it can be used to treat conductive materials such as metal and alloys. 3DT’s PlasmaDyne systems offer a variety of types of plasma treating heads that can be quickly mounted onto existing lines with little setup. A unique benefit of our system is that the discharge level is adjustable for numerous applications. Plasma also produces no ozone gas which is a natural byproduct of the corona process.
Alternatively, corona discharge typically imparts less surface energy but can treat large areas. Corona treatment also has the advantage of being able to treat inside parts or in the recesses of 3-dimensional parts. Both methods are very effective in functionalizing surfaces for better adhesion. Check out the video below.
3DT designs and manufactures an extensive range of cutting-edge surface treatment products, including:
3DT’s MultiDyne™ corona treatment system creates optimal surface tension, or wettability, on a broad range of parts and materials. Featuring repeatable and process controlled operation, MultiDyne™ is typically used to prepare blow molded, injection molded, and extruded parts and products. MultiDyne™ creates highly effective, uniform adhesion on surfaces for printing, coating, gluing, and lamination.
MultiDyne™’s state-of-the-art corona discharge technology works by creating a short circuit between two high voltage electrodes. A constant flow of air between the electrodes facilitates even distribution of the corona field onto the surface of the treated material, creating a highly receptive adhesive surface. It is perfect for treating areas that are commonly a challenge for other surface treatments, including applications with complex geometries, hard-to-reach areas, and metal-adjacent surfaces.
PolyDyne™ is one of 3DT’s most powerful corona treatment systems. This extremely dependable and reliable system is particularly useful in high-speed operations, such as printing, extrusion, assembly, and coating production lines. PolyDyne™ is exceptionally versatile and can be used to treat everything from the interior surface of needle hubs to automotive components. Using the latest technology, PolyDyne™ directs corona treatment with an exceptional degree of precision onto virtually any surface.
PolyDyne™ is specifically designed with flexibility in mind. All of our systems can be customized to meet the particular needs of your application, including variety and number of treating heads, custom electrode systems, ozone eliminators, and material handling systems. For more resistant materials, we are pleased to offer our PolyDyne Pro™ system.
PlasmaDyne Pro™ uses a stream of highly ionized plasma to modify the chemical properties of the surface material within the stream. The surface becomes functionalized and highly receptive to chemical bonding. This system also cleans and etches substrates for added bonding properties. PlasmaDyne Pro™ is unique within the industry because only 3DT’s technology offers adjustable treatment/power levels. This benefit increases treatment options regarding flexibility in substrates, parts, and treating modes all within one system.
PlasmaDyne Pro™ enhances the adhesion of ink, paint and adhesive to a wide range of components, from plastic tubing and medical devices to rubber automotive seals and metal parts. 3DT’s PlasmaDyne Pro™ is a compact, versatile system, with an optimized control unit, the highest in treatment levels and modular replacement parts that facilitate non-stop production. PlasmaDyne Pro™ is completely customizable. Let’s discuss your application today!
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