Current Trends in Conformal Coatings Print E-mail
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Written by Frank Hart   
Wednesday, 07 March 2012 15:44

Custom formulations have become the norm.

Conformal coating materials, to an equipment manufacturer, are a vital ingredient to success or failure on many different levels. The marriage of material and the correct application equipment invariably dictates everything from process implementation, line efficiency, quality, and customer satisfaction. This drives chemical companies and equipment suppliers to a unique relationship in that new product or process development is often dictated by the capabilities of the other. For example, new chemistries are always in development, and while performance properties, reworkability, and cure mechanisms all contribute to product marketability, ease of application can often dictate how widely a material is accepted by consumers. Further, does the technology even exist to process a chemistry per its intended application? Similarly, equipment manufacturers work diligently with formulators to assure they have products to meet the demands of material trends throughout the industry.

One of the most prominent examples of this relationship occurred in the early 1990s, as formulators began to heavily market solvent-free, higher viscosity (>100cps) coatings. These materials could not be processed well with non-atomized film coaters, the prevalent technology of that era. This problem quickly turned to opportunity as dispensing companies started to invest in researching atomized application solutions. The atomized spray valve would subsequently fill this niche, while also affording formulators the opportunity to sell these products to a larger potential market of end-users. In the end, equipment manufacturers, chemical formulators, and the customer all benefitted because they were able to access their preferred material and process the chemistry in the most efficient way possible. This type of win-win scenario is indicative of the relationship shared by equipment fabricators and chemical formulators.

As equipment fabricators and material formulators need each other to be successful, each entity often finds itself on the forefront of developing technology for the other. This provides valuable insight into new technology and global trends within the industry. Often, trends in material usage follow not only what is the new technology of the time, but the industries that are investing in new equipment, researching new materials, and using higher volumes of coating. As a result of various physical properties represented in each chemistry, many coatings generally follow the industry they serve. For instance, during the past two years, as the global automotive industry has recovered, we have seen an increase in demand for silicone coating products due to their excellent temperature and moisture resistance. Similarly, as aerospace, home appliance, and consumer electronics products are coated, one tends to see more UV and moisture cure acrylics and urethanes as a result of their overall protection properties and ease of reworkability. That said, it’s not always the newest technology on the market that drives coating material decisions, but also the industry and subsequent environment that the end-product is exposed to as users identify the appropriate chemistry for their protection requirements (Table 1). This translates to frequent fluctuations in what coating materials are being utilized in automated applications based on the profile of the customer.

Another factor that can trigger growth for a specific chemistry is the geography of the application. The type of materials utilized can vary greatly, depending on the regional preferences, environmental regulations, application process and market niche. While silicones have gained traction, solvent-based acrylics and urethanes remain very popular in Europe, where they have historically dominated. Solvent-based chemistries have broad appeal, but are even more popular in pockets of the US that sprout subcontractors that service the aerospace and defense industries. Take a region like Florida, for example, that seemingly has dozens of contract manufacturers, all primarily servicing the same industry. In stark contrast, states such as California or Minnesota that have very tight restrictions on solvent or VOC emissions drive coaters to more environmentally friendly formulations. Restrictions or simply personal preferences such as these have caused many chemical companies to revisit their formulations over the past decade and introduce more environmentally friendly versions of coatings to open new markets for their products.

Silicones and UV products remain strong competitors in Mexico, Pacific Rim, Korea and China, where automotive component production remains strong. In those areas, numerous moisture-cure silicones are popular for their physical properties, but so are UV materials for their speed of cure – a necessity for high-volume production.

All this segmentation in the coating industry has driven chemical companies to the most prominent current trend in the marketplace: customization. No longer is one coating chemistry versatile enough for the changing demands of the consumer. It is no longer unusual to take a longstanding coating material and have eight to 10 versions of the formulation on the market. Viscosity modifications, sometimes from 20cps all the way to a non-slumping gel version, tend to be the most popular. If one is looking to modify the flow characteristics, limit wicking into keep-out areas, produce a dam, or control the solvent-to-resin ratio, there is typically a product tailored to their requirements.

Maybe the appearance of the coating is of greater importance to the end-user. This can be as radical as the physical color of the coating itself or perhaps just the level of fluorescence under black light. Some end-users do specify the coating needs to be visible to the operator from a predetermined distance from the application. Maybe a technology is proprietary to the point that an opaque coating protects the design in lieu of transparent materials. Such requirements may drive an end-user to request a custom formulation with these properties.

No matter the request, from appearance to viscosity, to the cure mechanism or even changing the solvent carrier to a VOC-friendly alternative, custom formulations have become the norm more than the exception, and chemical manufacturers are marketing these products as standard solutions. End-users should always work with formulators to ensure that any modification to the original chemistry does not affect performance properties such as adhesion, protection or curing. From an application standpoint, having a chemistry slightly altered may affect a variety of process parameters, so always consult with the material manufacturer and applications staff prior to a formulation change. In an automated process, the changes may be as simple as modifying the robot speed or adjusting the path spacing to compensate for the new flow characteristics, but these factors can always be prequalified in a test laboratory.

Frank Hart is sales and marketing manager, PVA (; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Last Updated on Wednesday, 07 March 2012 16:04


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