Finishing has always been an essential part of the automotive component production cycle. The application of lacquers and protective layers ensure that sheet metal, plastic inserts and gaskets perform to their full potential, giving the vehicle outstanding visual appeal and ensuring parts are durable and high-performance regardless of the material used to make them.
Needless to say, a wide range of applications and technologies are used to manufacture automotive components. They vary according to the purpose for which the various parts are designed, but they all share the same need: they must be made and coated quickly and efficiently, without ever compromising quality, especially as regards surface finishes. This article explores the tools and processes that can be used to maximise results and also takes a look at the most ground-breaking methods.
Whatever the type of treated part - bodywork sheeting, gaskets, plastic inserts or mechanical components - an automotive component production line involves finishing processes of varying complexity. For example, finishing vehicle interior parts is usually a 3-stage process that might need to be repeated to achieve the desired final result.
The first step is pre-treatment. This involves cleaning and preparing the surface of the component. Popular techniques include deionization and micro-cleaning with plasma flaming.
Deionization involves blowing in ionized air and extraction to eliminate the static electricity: this is essential as it stops dust settling on the piece before coating. In addition to these technologies, Cefla Finishing has designed and developed the Mito CO2 cleaning station - which has a carbon dioxide snow cleaning surface preparation function - to help automotive component manufacturers perform this task to perfection. This solution is especially recommended for vehicle interior parts: approximately 90% of such products have, in fact, a shiny ‘piano black’ finish of the highest quality.
Plasma applications are particularly useful for reducing surface tension. This facilitates lacquer adhesion and flow.
Moreover, flaming also improves adhesion on certain tricky materials and allows better wetting of liquids on smooth parts, minimising surface tension (which reduces piece wettability, making it difficult to coat).
The second step is coating. This involves applying primer, lacquers and any other coats of specific materials needed to perfect the finish. In this specific area, Cefla Finishing offers a vast range of solutions.
These span from the Prima oscillating spray coater, a machine for the continuous spraying of raised panels of any type, to Mito, the P and B versions of which also provide dry filtration, paper/belt conveying and overspray elimination.
The iBotic machines are advanced robots with a sophisticated set of axes that ensure unrivalled productivity and absolute precision.
Another jewel in the Cefla crown is the six-axis articulated iGiotto robot: this innovative integrated system for the automatic spraying of small-to-medium lots features the best vision and spraying technologies, applying them to large Cartesian dimensions.
The final phase is drying. This aims to harden the applied coatings by evaporating the thinners and subsequently curing the resin contained in the lacquer. Drying usually takes place in ovens (often arranged sequentially along the finishing line in different configurations), cooling tunnels and hot air storage modules. The term ‘flash-off’ refers to a drying process that does not result in complete hardening of the lacquer so that the next layer can adhere better.
With the Ecogel line, Cefla Finishing provides laminar-air ovens with a slat or belt conveyor. In their combined (air/UV lamp) configuration, these machines are perfect for evaporating solvents from lacquers quickly, before they’re dried with UV rays.
Moving on to drum ovens, the Aquadry line is designed for companies that want fast flash-off and drying processes. What’s more, the technology associated with this type of solution constitutes the most efficient drying system for water-based dyes and lacquers. The Aquadry RLA range, instead, consists of drum cooling tunnels with high-speed air blades, with a belt or slat conveyor. The architecture is highly effective thanks to the high levels of heat exchange that stem from the high air speed.
Then there’s PIEFFE, the flexible multi-level hot air storage module designed for flash-off and/or drying cycles with laminar-flow hot air. Hold times vary according to the speed of the finishing line and the number of trays.
Completing the range are the Omnidry Rack and Belt vertical ovens - configured to minimise the required floor space and ensure excellent capacity - and tunnel ovens with UV irradiation for raised panels.
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Choosing the right finish for the various types of automotive component means taking into consideration a wide range of factors: the material used to make the part, the setting it’s likely to be used in, plus the technical and aesthetic requirements of the vehicle on which it’s fitted.
Hence the need for a partner who does not have an excessively vertical approach to the functional-technological aspects of finishing processes but, rather, one who also knows how to assess the aims of the process and come up with properly tailored solutions.
Of course, the technologies themselves are fundamental. However, to obtain an excellent result it’s equally essential to know how best to combine them according to the type of material to be treated and, above all, the component to be produced. That’s why Cefla Finishing goes beyond the design and development of efficient, precision machines to focus on consultancy.
For example, we provided a German customer - who needed to set up a new coating line as part of their car dashboard/console production process - with a solution tailored to their stated needs: the components produced by the new line would have to be completely defect-free as, once ready, they would be shipped directly to the vehicle assembly lines.
To deliver the required performance, then, the line was configured as follows:
High-precision machines need to be matched with top-quality materials. Hence Cefla Finishing’s entry into strategic partnerships with the major lacquer and coating suppliers.
Thanks to an in-depth understanding of consumables and their characteristics, solutions provided to customers can be configured to optimise both the consumption and yield of the materials. In automotive component production, that means:
This is the present. But what about the future of automotive component finishing? Well, one of the key trends in the sector is the use of low-bake lacquers, which can be dried at lower temperatures than their traditional counterparts. To be specific, about 80/90 °C as opposed to 140/160 °C.
Specialised producers of automotive components are also increasingly focused on systems that automate the coating process, such as systems with robotic stations that use dry-type lacquer filtration mechanisms.
Market developments aside, one thing is certain: companies operating in this extremely competitive sector must always ensure their customers - car makers - can count on productivity, quality and efficiency.
And that’s where flatbed systems - a Cefla-developed solution for the ultra-efficient finishing of automotive components - come into play.
But how do flatbed systems differ from traditional lines? The latter tend to be the right choice when you need to coat large 3D parts: bumpers are a good example of an item best treated using these lines.
However, when items are smaller (up to 30 cm high), flat lines, or flatbeds, are decidedly more flexible and efficient. The technology is therefore particularly suitable for vehicle interiors, which have numerous components that require a high-quality process.
The flatbed lines implemented by Cefla Finishing include a robotic system with a scanner to detect pieces that involve minimal programming. Each booth can host up to two different robots. This boosts the processing speed or the coating circuit, with users able to select between intelligent or continuous spraying, depending on the shape of the objects.
Flatbed lines can handle different, even mixed, parts on simplified masks: such masks only need to be rectangular with a flat frame and, of course, they need to hold the parts in position. This approach also makes manual cleaning faster and simpler during loading and quality control.
Note also that this is a modular system (also available with cTracker and cLink line supervision software): it can easily be expanded by adding other standard machines without having to make any substantial modifications. Yet another reason, then, why flatbed lines maximise conveyance flexibility: there's no need for step movements as on traditional lines because each machine can act independently.
Adopting a flatbed solution provides tangible, measurable advantages:
The automotive component manufacturing sector is constantly evolving: technology is progressing at a blistering pace, with digitalization paving the way for new, innovative finishing solutions.
Nevertheless, we’re still talking about a complex, delicate process that is crucial to vehicle quality and performance: so nothing can be left to chance. This is why it’s vital to team up with a technological partner with skills that go beyond the technology itself: a partner able to deliver high-performance products, continuous innovation, expert assistance and a commitment to joint research and development. That partner is Cefla Finishing.
If you’d like to see what we can do for your business, and experience the effectiveness of our solutions for yourself, contact us: we’ll put you in touch with one of our experts.
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