Equipment operators in critical, heavily regulated industries such as aerospace, chemical refining and processing, pharmaceutical and food processing, oil and gas, and semiconductor chip manufacturing share a common pain point — How can the elastomer materials in the O-Rings, seals, and gaskets that help keep machines running handle the increasingly aggressive requirements of their operating environments?
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The short answer is Perfluoroelastomers (FFKM, by ASTM [American Society for Testing and Materials] 1418 standard), a family of chemical and heat-resistant elastomers that combine the chemical resistance of Polytetrafluoroethylene (PTFE) with the flexibility and elasticity of standard Fluorocarbon Elastomers (FKM).
Perfluoroelastomers were born out of necessity, and today, they are widely used across many industrial processes. However, there is much to consider when choosing FFKM materials because of the wide range of compounds now available.
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FFKM is often used in applications where other polymers are unable to perform. One advantage is that FFKM are fully fluorinated and therefore contain higher amounts of fluorine than standard FKM, resulting in higher temperature ratings (up to approximately 325 C [617F]) and improved chemical resistance with nearly universal chemical compatibility. This combination makes seals manufactured in FFKM a premium choice for the industry's most demanding applications.
As mentioned, the differentiator is the compounds' recipe, typically a proprietary blend of ingredients with specific characteristics.
Take, for example, the evolast range of FFKM engineered by MCM Sealing Inc. and stocked by anyseals, which is suitable for various industries and applications. The evolast range of FFKM offers exceptional resistance to aggressive chemicals, such as acids, organic and inorganic fluids, ketones, esters, solvents, amines, hot water, and steam.
When choosing perfluoroelastomers, consider which performance attributes are required for your application. In addition, the FFKM must meet specific certifications and approvals.
Elastomers like FFKM are integral in many industries. With many options available, understanding the chemistry and capabilities of each type is crucial for application-specific performance. This article discusses the intricate chemistry behind FFKM and explores three significant brands—Kalrez®, Chemraz®, and PERFREZ®—examining their unique properties and cost-benefit implications for industrial applications.
Understanding the molecular architecture of FFKM, or Perfluoroelastomer, provides critical insights into its unique performance characteristics. With a strong chemical structure, the role of fluorine, and the consequent superior resilience and performance, its chemical makeup helps to set FFKM apart.
FFKM is a type of fluorinated elastomer composed of a fluorocarbon-based polymer chain. The primary bonds in this polymer chain are carbon-fluorine (C-F) bonds. C-F bonds are significantly stronger and more stable than the carbon-hydrogen (C-H) bonds in common elastomers. The polymer matrix is often cross-linked with peroxide or other high-energy compounds to improve its mechanical properties further. These chemical modifications significantly alter the material’s properties, making it more resilient to harsh conditions.
Fluorine atoms are highly electronegative, meaning they have a strong tendency to attract electrons. This results in a partial negative charge on the fluorine atom and a partial positive charge on the carbon atom, leading to a highly polar C-F bond. The electronegativity of fluorine imparts strong dipole-dipole interactions within the material, contributing to its overall suitability. Furthermore, the carbon-fluorine bond energy makes it one of the strongest single bonds in organic chemistry. This strong bond significantly contributes to the material’s chemical inertness, making the material less reactive and more resistant to a range of chemicals, extreme temperatures, and various forms of physical stress.
The unique chemical structure of FFKM contributes directly to its superior performance attributes.
By understanding the chemistry behind FFKM, one can better appreciate its multiple benefits, particularly its unmatched resilience and performance in demanding conditions.
Kalrez®’s advanced curing systems, including peroxides and bisphenols, contribute to its durability and allow it to be engineered to meet specific needs. This adaptability makes it a favorite for custom applications where standard materials may not suffice. Its versatility extends to its compatibility with different hardware configurations, making it an adaptable choice for various types of machinery and equipment.
Due to its extraordinary temperature range, Kalrez® is invaluable in industries where operating conditions can be extreme. In aerospace applications, for instance, it can withstand the cryogenic conditions of outer space and the high temperatures of engine combustion. Within the pharmaceutical industry, Kalrez® o-rings are a trusted component in applications like ultra-pure water systems and filtration units. They provide reliable, leak-free performance, ensuring the integrity and safety of critical processes.
Unique to Kalrez® is its broad FDA compliance, making it the go-to choice for food and beverage processing and pharmaceutical applications requiring contact with consumables. This compliance means that Kalrez® can safely be used in processes directly affecting public health, offering a distinct advantage over materials lacking such certifications.
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An often underappreciated aspect of Kalrez® is its long service life, which brings cost benefits in the long run. While the upfront costs may be higher compared to conventional materials, its durability means fewer replacements and less downtime, which results in significant savings over the life cycle of the equipment.
Chemraz®’s unique engineering and meticulous formulation make it a high-performing material, allowing specialization toward individual application needs. This level of customization sets it apart from other sealing solutions. Moreover, Chemraz®’s long-term durability minimizes the need for frequent replacements, reducing maintenance costs and operational downtime.
Chemraz® has also been rigorously tested in numerous real-world applications to validate its performance credentials. For example, in the automotive industry, Chemraz® is used for fuel systems and turbochargers, where its outstanding chemical resistance and thermal stability are critical. In the oil and gas sector, it finds use in high-temperature and high-pressure applications where its failure could result in catastrophic consequences. It stands up to the intense demands, earning its reputation for reliability.
What sets Chemraz® apart is its rapid gas decompression (RGD) resistance, making it especially valuable in the oil and gas sector for applications such as downhole tools and control valves. Its RGD resistance ensures that the material will not fail when subjected to sudden changes in pressure, a frequent occurrence in this industry.
Another distinct advantage of Chemraz® is its compatibility with a wide range of fluids. This advantage is particularly beneficial in sectors like chemical processing or pharmaceuticals, where the material may contact multiple chemical agents. This broad compatibility reduces the need for numerous types of seals, simplifying inventory management and reducing overall costs.
PERFREZ®’s specialized composition makes it exceptionally resilient in high-stress conditions. This resilience extends to its capacity to maintain an effective seal even in dynamic applications involving pressure or temperature fluctuations. Its adaptability also allows for its use in specialized customer seals, meeting the demands of complex and unique applications.
PERFREZ® often plays a critical role in maintaining an uncontaminated environment, which is essential for producing sensitive electronic components in the semiconductor industry. Its high purity levels make it a valuable asset in this context. In the petrochemical sector, PERFREZ® offers more than just robustness and durability; it also brings an extra layer of safety, especially in high-pressure valves and fittings. Here, its unique composition minimizes the risk of leaks, which could be disastrous in handling volatile substances.
One remarkable feature of PERFREZ® is its ability to perform reliably under cyclical loading conditions, which are prevalent in rotary machinery. This ability makes PERFREZ® a preferred choice in applications where both chemical resistance and mechanical performance are necessary, such as dynamic pumping systems that involve frequent changes in pressure and temperature.
A standout feature of PERFREZ® is its ultra-low outgassing properties, making it an ideal choice for vacuum and cleanroom applications. PERFREZ®’s minimal outgassing ensures the integrity of sensitive components and environments in industries like aerospace and semiconductor manufacturing, where contamination could be detrimental.
All three brands—Kalrez®, Chemraz®, and PERFREZ®—are at the high-performance end of the elastomer spectrum, offering excellent chemical and temperature resistance. Kalrez® typically stands out in extremely harsh chemical environments, while Chemraz® is often in oil and gas applications. PERFREZ® is notable for its cost-effectiveness in applications that require high performance.
FFKM o-rings, especially those from high-end brands like Kalrez®, Chemraz®, and PERFREZ®, are generally more expensive initially compared to other elastomers such as Buna or Viton®. However, evaluating the upfront cost in the broader context of long-term operational benefits is critical. FFKM materials’ superior resistance to extreme temperatures and aggressive chemicals often means lower maintenance, less frequent replacement, and reduced downtime. While a less expensive o-ring may only last a month in challenging conditions, an FFKM o-ring could last a year or more. Despite a higher initial price point, this longevity could result in significant cost-effectiveness in the long run.
Kalrez® often comes with the highest initial cost, but its exceptional performance in extreme chemical and thermal environments often justifies the investment. In industries like pharmaceuticals and semiconductors, where the cost of equipment failure or downtime can be prohibitively high, the long lifespan of Kalrez® o-rings can significantly offset the initial expense by lowering total operational costs over time.
While it also falls on the pricier side, Chemraz® offers a balanced set of mechanical and chemical properties, making it a versatile choice for various applications. In sectors like oil & gas, where machinery experiences high temperatures and a variety of corrosive substances, the durability and longevity of Chemraz® o-rings can translate into substantial cost savings in the long term.
Generally considered the most budget-friendly among the FFKM options, PERFREZ® still delivers solid performance metrics. It presents a compelling cost-benefit scenario for applications requiring high performance but are budget-constrained. PERFREZ® has a lower upfront cost that can make it a sensible option for less critical applications, resulting in an overall cost-effective solution.
By taking into account the individual cost-benefit profiles of these high-quality FFKM brands, organizations can make informed decisions that meet performance requirements and contribute to long-term financial sustainability.
Selecting the appropriate elastomeric material is pivotal in achieving operational excellence and long-term cost-effectiveness. As industries continually evolve and demand for high-performance materials rises, understanding the nuances of these FFKM brands becomes indispensable for making informed decisions that meet performance requirements and financial sustainability. Global O-Ring and Seal carries a comprehensive range of Kalrez®, Chemraz®, and PERFREZ®, serving as your go-to source for advanced sealing solutions.
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