Polytetrafluoroethylene (PTFE) is a fluoropolymer celebrated for its chemical inertness, corrosion resistance, low friction, thermal stability, electrical insulation, and hydrophobicity. Its high-performance attributes shine in diverse sectors, including subsea industries where all operations must endure harsh environments.
Whether used for rotating machine parts or coatings and insulation, PTFE has a fundamental role in improving underwater systems’ longevity, safety, and performance. But what exactly makes this polymer a superior choice for subsea use? Let’s take a closer look:
What Subsea Challenges Does PTFE Address?
Standard materials often fail in marine settings due to ruthless operating conditions, such as high-pressure depths and corrosive salt water. On the other hand, PTFE offers properties that can help overcome the obstacles beneath the waves, including:
Material Decay
Corrosion is a persistent issue in underwater environments. Metallic parts and infrastructures constantly exposed to seawater, brine, and aggressive chemical agents can degrade rapidly. PTFE’s nonreactive surface and chemical resistance make it an ideal protective layer for components in corrosive zones, extending service life and reducing maintenance intervals.
Extreme Pressur
Subsea components operate under high pressures, especially in deeper parts of the sea, making them susceptible to material collapse and extrusion. Virgin PTFE has low mechanical strength that can handle such pressures. Filled PTFE grades, often reinforced with glass or carbon, are also worth investing in, as they can further enhance compressive strength and extrusion resistance.
Thermal Variability
Even below the ocean’s surface, mechanical equipment may face extreme heat and temperature shifts generated by internal processes or cooling effects from surrounding water. Because of its property profile, PTFE can perform reliably under diverse temperatures without cracking, crumbling, or melting. Hence, it’s a safe choice for producing insulation and thermal barrier components.
Biofouling and Contamination
Sediments and countless marine organisms may stick and accumulate on the surfaces of submerged components. When used for subsea components and coatings, PTFE can lessen performance degradation in moving parts and reduce the need for routine cleaning and antifouling treatments.
Signal Integrity, Power Handling, and Electrical Safety
Subsea systems require seamless underwater signal transmission and steady power distribution. Due to its high dielectric strength and insulating properties, PTFE is often used to protect connectors, cables, and other electronic components from moisture. As a result, it can prevent electrical failures, shorts, and fire safety hazards.
PTFE’s Real-World Uses Beneath the Surface
Thanks to its versatility, PTFE can be incorporated into underwater tech systems and infrastructures in numerous ways. Here are the most common subsea polytetrafluoroethylene applications:
Sealing Applications
Many offshore and deep-sea systems typically have gaskets, seal rings, valves, flanges, and similar parts. Engineers and manufacturers often use PTFE for these sealing components to ensure they can withstand aggressive chemicals and volatile temperatures, especially in oil and gas refineries. These properties ensure leak-free performance in sealing applications even when exposed to acid gas, caustic substances, or steam.
Coatings and Linings
PTFE is frequently used as a coating for parts like bolts, fasteners, springs, pipelines, and sensor housings. It creates a smooth, non-stick layer that reduces friction and wear without attracting debris or degrading over time. Coatings and linings made from this polymer are excellent for marine environments where wet- and oil-based types and reapplication are impractical.
Electrical Insulation
Many offshore and deep-sea infrastructures rely on connectors, cable jackets, wires, and other electrical components. Many engineers use PTFE as insulation to protect these parts from moisture because it’s hydrophobic and can withstand extreme pressure. It’s ideal for control and monitoring systems, sensors, and communication lines in marine environments.
Bearings and Bushings
PTFE’s naturally low friction coefficient eliminates the need for additional lubrication, which benefits bearings and bushings in subsea actuators and pumps. Moving and oscillating parts made from this fluoropolymer experience less wear over time, prolonging component lifespan and decreasing risks of failure.
Considerations When Specifying PTFE for Subsea Operations
While PTFE solves many subsea challenges, its application requires thoughtful engineering to ensure optimal performance and longevity. Here are several factors manufacturers and engineers must keep in mind:
Creep and Cold Flow
PTFE can warp when subjected to pressure and mechanical loads for extended periods. This deformation can create gaps or cause sealing components to lose pressure containment. One common way to mitigate this issue is to use filled PTFE grades, which have enhanced dimensional stability.
Thermal Expansion
Because PTFE has a relatively high thermal expansion coefficient, components made from it can change size when temperatures fluctuate. Product engineers should account for expansion tolerances and avoid rigid constraints that may cause stress buildup.
Mechanical Support
PTFE’s strength is lower than metals and other high-performance plastics like PEEK. Supplementing them with metal housings or using them in composite assemblies in high-load areas is advisable. Both approaches can decrease the likelihood of structural failure or extrusion.
Long-Term Permeability
Over time, PTFE may allow small amounts of fluid or gas to diffuse under high pressures. This necessitates incorporating additional barriers or opting for multilayer assembly designs, especially in critical sealing and insulation applications.
Cost Efficiency
PTFE is more expensive than standard industrial materials. However, it’s crucial to remember that this polymer is formulated to increase component life expectancy and meet specific application requirements. The enhanced savings and reduced maintenance expenses outweigh PTFE’s upfront costs.
Ensure Steady Performance in Unstable Waters With PTFE
Whether pure or reinforced with additives, PTFE brings notable advantages to offshore and underwater operations. This fluoropolymer’s properties help subsea components endure ruthless environmental conditions and elevate their performance and reliability. Contact a PTFE engineer or manufacturer for solutions tailored to your project’s demands. They can also help you select the right grade for your specific application.
