Jan. 06, 2025
There are customers donot know what the difference between PVDF coating and powder coating, and do not know they shall choose PVDF coating or powder coating. Here we are pleased to make a quick and simple introduction for what is PVDF coating, what is powder coating, the difference and advantage of PVDF coating and powder coating.
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PVDF coating (polyvinylidene fluoride) a resin based liquid coating system and a pure thermoplastic fluoropolymer that is non-reactive and possesses multiple coating benefits. PVDF coatings are especially resistant to solvents, acids and have a very low density compared to similar fluoropolymers.
Powder coating is Electrostatic spraying refers to a coating method that uses corona discharge principle to make atomized coating negatively charged under the action of high voltage direct current field and adsorbed on the surface of positively charged substrate.
Fluorocarbon coatings utilize fluoropolymer resins known for their exceptionally stable molecular structure due to fluorocarbon bonds. This characteristic grants fluorocarbon coatings outstanding resistance to chemical corrosion and UV degradation, making them highly favored in various applications.
Currently, the market primarily utilizes polyvinylidene fluoride (PVDF) resin, polyvinyl fluoride resin, and polytetrafluoroethylene (PTFE) resin, each serving specific purposes.
Polyvinylidene fluoride (PVDF), typically cured at room temperature without baking, finds restricted use in high-temperature baked metal architectural materials. However, with a higher fluorine content than polyvinyl fluoride resin, it offers significantly superior overall coating performance. PVDF coatings are considered the premier choice for metal architectural coatings. Over the past 40 years, PVDF coatings have demonstrated the longest weather resistance under severe global climates, making them indispensable for high-end metal architecture.
The advantages of PVDF coatings have gained widespread acceptance in the market, with nearly all high-end metal architecture adopting fluorocarbon coatings. Despite the higher cost of fluorocarbon coatings compared to conventional paints, the price difference in metal coating components is minimal, while the use of fluorocarbon coatings significantly enhances weather resistance several times over. This economic rationale has led to an increasing adoption of fluorocarbon coatings in ordinary buildings.
PVDF fluorocarbon coatings were developed in and commercialized by . Over 40 years of use have proven PVDF fluorocarbon coatings to be the most durable weather-resistant coatings available for metal architecture. These coatings are produced using 70% PVDF resin, 30% acrylic resin, and advanced weather-resistant pigments, typically inorganic ceramic pigments. Strict coating processes are required for qualified coating products after curing at high temperatures.
Currently, PVDF coatings are available as liquid coatings and powder coatings.
Most are liquid coatings applied either by roller coating or spraying. Roller-applied PVDF coatings are used for coil-coated steel and rolled aluminum sheets. In China, fluorocarbon-coated rolled aluminum sheets are widely used in aluminum-plastic composite panels. Spray-applied fluorocarbon coatings are mainly used for aluminum veneers and aluminum profiles.
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Liquid PVDF coatings, developed earlier and mature in technology with convenient color matching, remain the predominant form of fluorocarbon coatings globally. However, due to their use of solvents causing environmental pollution, energy waste, and higher costs, pressure to reduce their uses is growing higher. For instance, liquid fluorocarbon coatings have disappeared due to environmental protection measures in Europe, while powder coatings are rapidly growing in North America. Powder fluorocarbon coatings, like polyesters and other products, are gradually replacing liquid fluorocarbon coatings, an inevitable trend that is only a matter of time.
Fluorocarbon powder coatings use the same PVDF resin and inorganic ceramic pigments, offering comparable excellent weather resistance and other properties without solvent use. Excess powder can be recycled, offering environmental and energy-saving advantages.
However, conventional PVDF powder coatings have drawbacks such as poor surface smoothness and excessive coating thickness. Despite over 30 years of development and application, they have not been widely used.
In recent years, driven by environmental pressures, PVDF powder coatings have seen rapid development, especially with breakthroughs in ultrafine powder technology and its application in fluorocarbon powder coatings. This has completely transformed PVDF powder coatings, allowing for smoother and thinner coatings, improving quality and significantly reducing painting costs. Today, ultrafine powdered fluorocarbon coatings offer environmental benefits, efficiency, cost-effectiveness, and energy savings compared to liquid fluorocarbon coatings, making them a viable replacement.
However, powder coatings have two notable drawbacks: excessive thickness and poor surface smoothness. Powder coatings typically have a thickness of 60'100 micrometers, much thicker than conventional paint films. This not only leads to unnecessary waste but also often reduces coating performance, such as increased susceptibility to peeling and decreased film hardness. The uneven surface of powder coatings diminishes their decorative appeal and limits their application in various areas. These issues primarily stem from the large particle sizes of powder coatings. Achieving particle sizes below 25 micrometers could result in a very thin and flat surface, overcoming these limitations.
Researchers worldwide have long worked to overcome these issues. Huiju Corporation of Canada led breakthroughs, revolutionizing the powder coating industry.
Using ultrafine powder technology to produce PVDF powder coatings has resolved longstanding issues such as excessive thickness and inadequate surface smoothness. This advancement has enabled PVDF powder coatings to achieve levels comparable to liquid fluorocarbon coatings.
By significantly reducing thickness, these coatings maintain high quality while avoiding significant cost increases. The adoption of ultrafine powder coating technology for PVDF is pivotal as it addresses critical technical challenges related to poor surface smoothness and high costs of conventional fluorocarbon powders, laying the foundation for replacing liquid coatings with powder coatings.
In conventional fluorocarbon coatings, 30% acrylic resin is used to wet inorganic pigments and enhance adhesion. Fluorocarbon powder coatings require superior adhesion. Conventional thermoplastic acrylics often fail to provide sufficient adhesion, while traditional thermosetting acrylics struggle to fuse with PVDF resin, resulting in low coating density and poor leveling.
Advanced acrylic technologies, utilizing nanotechnology-modified thermosetting acrylic resins, enhance compatibility and adhesion with PVDF, thereby improving weather resistance. The invention and use of these new thermosetting acrylic resins achieved rapid development of powdered fluorocarbon coatings, especially PVDF powder coatings.
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