- The company highlights the excellent combination of properties in terms of protection against oils and chemicals, as well as high thermal resistance.
- 5G network generation, high-speed communications, and transportation are some of the industries that benefit from fluoropolymer masterbatches.
Delta Tecnic, a benchmark company in the production of masterbatches for the cable and PVC industry, values the manufacture of masterbatches and coloured compounds through the dilution of fluoropolymer resin. Thanks to their ability to retain stability in almost all chemical environments, fluoropolymers give high performance to cables, which is especially relevant in this context of digital transformation.
The fluoropolymer market size was valued at $426.6 million in 2020 and a compound annual growth rate of 3.6% is estimated between 2021 and 2027, according to a study by Global Market Insights. Precisely, the growing demand from cable companies contributes to the increase in the use of this type of masterbatches. And it is that fluoropolymer masterbatches are widely used in colouring applications of various products due to their characteristics which are superior to other thermoplastic resins.
Higher quality of polymeric compounds
After more than five years using this type of polymer, Delta Tecnic highlights the excellent combination of properties in terms of protection against oils and chemicals, as well as high thermal resistance. Among the qualities of these cable coatings we can highlight their low surface energy, low coefficient of friction, high inertia to any chemical agent, high resistance to abrasion and zero alteration due to light.
Delta Tecnic began its offering with masterbatches made with FEP—which stands out for being highly transparent and resistant to sunlight—and with EFTE, highly durable due to its chemical
resistance and stability to temperature changes and ultraviolet rays. Now the company has increased its range by incorporating both PFA, with creep resistance and thermal stability, and PVDF, which exhibits efficient piezoelectric and pyroelectric properties.
More efficient cables for growing industries
The cable industry is diversifying and growing hand in hand with new technologies, especially with the new generation of wireless networks (5G) and high speeds. It is precisely in this sector where it is important to reduce the weight of cables and increase connections thanks to the Internet of Things (IoT). Due to their good general behaviour, fluoropolymers can be used in difficult conditions, allowing for reducing the use of insulation and the dimensions of the cables.
There are multiple benefits associated with the use of these resins in cables. One of them is its resistance to extreme temperatures, very useful in high performance applications in environments where there are extreme climates with very wide temperature ranges from very high to very low.
Their chemical resistance makes them optimally used in heavy machinery units or in chemical factories where there is a danger of both high temperatures and contact with chemical agents.
Obviously, these properties make them exceptional in case of exposure to chemical elements, avoiding a decrease in electrical performance or even a power failure, with all the negative consequences that this electrical shutdown can cause.
There is an increasing demand for the reduction of thicknesses and weights in the cable industry. Fluoropolymers, thanks to their excellent insulation properties, enable the manufacture of cables with very fine insulation, helping to reduce weight, as well as enabling wiring in designs that require extremely small cables.
Thanks to their chemical structure, fluoropolymers are extremely flexible and in applications where continuous movements are required, their high resistance to deformation is highly valued to avoid breakage in the conductor insulation after long cycles of use.
These materials also have exceptional insulative properties, allowing for optimum insulation and are an excellent solution for very long-distance cabling with exceptional insulation requirements.
Fluoropolymers also have a very low coefficient of friction and wear resulting in a much lower loss of electrical energy than other polymers used as insulators. This makes them the best option in circuits where a loss of energy would be a potential problem.
So we can highlight all the benefits of using fluoropolymers: temperature resistance, chemical resistance, compactness, flexibility, efficiency, longer length and zero energy loss. When put together, all these benefits offer the resulting cable a longer useful life and better performance, thus keeping maintenance costs lower and requiring less repair or replacement.
In the aviation, automotive and special wiring industries, the introduction of these materials thanks to their high use temperatures and their chemical resistance has been increasing, now
comprising an essential family of materials. In addition, the transition to the electric car requires battery and charging cables that the combustion one doesn’t. The strong expected growth of
this industry and the change in consumer behaviour are moving the sector towards a new scenario.