How lip seals work

Lip seals work with a small contact area on the liner, which in turn is placed around the shaft. The seal works due to a hydrodynamic lubricating film between the lip seal and its counter surface, this area is called the sealing gap and the film thickness in general is a few microns. The lubricating film is most stable between two flattened surfaces, therefore over time, the lip seals tip will slowly wear to a small sealing surface. This effect also occurs on the liner, where a wear track is formed to the shape of the sealing surface of the seal. The liner can be outfitted in stainless steel, with or without a Hard Metal Layer (HML). To make sure the lip seals stay in place, they are clamped in bronze or cast iron housing parts.

Our rotating shaft seals are build-up with NBR, FKM or FKM-EAL lip seals, Hastelloy® C4 springs, liners, gaskets, O-rings and housing parts like metal rings. All our sealing solutions for rotating equipment contain two up to five lip seals to ensure a reliable operation. The required number of double lip seals depends on the application and environment. Some to form a barrier against water ingress and another to prevent lubricant leakage into the environment.

The function of lip seals

To accomplish the desired sealing solution, a lubrication film and high-pressure compensation are the main functions of rubber lip seals.

Lubrication film
The lubrication film forms a barrier between two media, such as water and oil. Another advantage is that the lip seal and liner do not make contact. This results in less friction, therefore reduced energy consumption, less wear, longer lifetime and minimal heat development. Minimal heat development makes the lip seals very suitable for high-speed applications, where often increased heat results in aging of the lubricant.

Pressure compensation
The lip seals in high-pressure applications, e.g. centrifugal pumps, have an additional pressure reducing function. The rotary lip seals run over a partially grooved bush/liner which is placed over the shaft. The helical shape of the grooves and peripheral velocity of the liner creates water flow (similar to aquaplaning) between the grooves and the lip seal. It lubricates the lip seals with flush water, cools the module and minimises friction. The lip seals work with a controlled ‘leakage’ which is drained into a drain tank. Due to this special pressure compensation module, the lip seals can handle up to 40 bar of pressure.

Supreme rubber lip seal

Three main factors that affect the lip seals

As seen in the image, there can be multiple factors that affect the sealing function of the lip seals. Spring force, liner condition, misalignment and film thickness could affect the lifetime and reliability for example. Despite the importance of previously mentioned factors, the main factors for the proper functioning of the lip seals are:


  1. Temperature
  2. Rubber compound
  3. Pressure differences




The temperature could increase due to friction/load on the contact zone, more shaft rotations per minute (RPM) or pressure difference over the lip seal. A higher temperature could lead to heat cracks and blistering of the lip seals. This could affect the seals reliability and will inevitably lead to leakage.

When a lip seal operates in temperatures above the operating limit, it is likely that heat cracks will arise. Heat cracks are small axial cracks that are visible on the lip seal edge, caused by hardening of the compound. If the lip seal has hardened it is also possible for breakouts on the sealing edge to occur. Heat cracks and breakouts will inevitably lead to leakage.

With regard to the water-facing lip seals, another phenomenon can occur; water vapourises under heat. This vapour can enter the elastomer material and when the water condensates within the molecular structure of the elastomer blisters will be formed, affecting the sealing function of the lip seal. We have different rubber compounds suitable to ensure a long lifespan.


Rubber compound selection


The different elastomer rubber compounds each have their own operational temperature range, wear and chemical resistance. While NBR lip seals are more wear resistant, FKM lip seals are more chemical resistant and can endure higher temperatures. By calculating the PV value [bar × m/s] – pressure difference × velocity – Lagersmit can advise the proper lip seal compound for each Supreme seal. Higher PV values indicate a higher heat development, which in turn can influence the right choice of seal.


Where EALs are used, a large chemical resistance is wished. Therefore a special FKM-EAL lip seal compound is advised when EAL is used.

Pressure difference over the lip seal

The pressure difference over the lip seal is the difference between the fluid pressure distributed on the front of the lip seal and the fluid pressure that exists on the back of the lip seal. The greater the pressure difference, the greater the friction and temperature increase will be. If your vessel or pump has to deal with pressure drops or spikes, the wearing process will increase and possibly also the consumption of fluids.


Lip seals vs gland packing

Summarised top advantages of lip seals versus gland packing:

  • Condition monitoring ensures you can plan maintenance efficiently, optimize MTBM, reduce costs, and minimize the risk of sudden pump failure
  • Energy savings due to less friction and minimized heat development
  • Safe workplace – the floor is kept dry, and no adjustments are required during operation
  • Easy to maintain – no other tasks required besides condition monitoring

Lip seals vs mechanical seal

Summarised top advantages of lip seals versus mechanical seal:

  • Predictable lifetime: condition monitoring minimises the risk of sudden pump failure
  • Optimised cost of ownership thanks to option to order spare parts, energy savings, and easy maintenance
  • The Liquidyne has a robust seal design, making it virtually non-sensitive for abrasive media

Environmentally Acceptable Lubricants (EALs) and lip seals

If EALs are preferred or mandatory and used in the stern tube, thruster or gearbox, you have to check the compatibility of the EAL with the rubber compound of the seal. Lagersmit has performed tests with several different EALs and it’s FKM-EAL Supreme seal. This has resulted in an EAL list, where all approved EALs with FKM-EAL are described.


EALs can chemically affect sealing rings by hydrolysis. Especially when emulsions are built up in the oil chambers of the sealing system or in the stern tube, these bio-oils interact with the water present and tend to break down. The lifetime of most NBR or FKM lip-type sealing systems will decrease due to this aggressive mixture. When using EAL, the use of Supreme® FKM-EAL lip seals is strongly recommended by Lagersmit.


Please note that a DNV-GL study shows an increase of stern tube bearing failures coinciding with the introduction of Environmentally Acceptable Lubricants (EALs). When changing the stern tube lubricant from mineral oil to EAL oil; choose an EAL oil with a higher viscosity (one viscosity grade up).

The lip seal book

Our lip seals are installed on many different applications and have to deal with all kinds of operating conditions, environments and oil-types. As an eager lip seal supplier we execute lots of lip seal analyses. We want to learn from every replaced lip seal that shows leakage or wear signs, but also the positive cases on which minimal wear is found. Within our lip seal book, we collect lots of technical data about the wear track, operation time, speed, pressure and materials. This enables us learn, gain insights and deliver better solutions for our customers.



If you are interested in further exploring the possibilities or have any questions, please contact us. Our team of sealing experts is happy to advise on new building, maintenance or retrofit applications.

Team Member

Jan Willem Bongers

Sales Manager

Team Member

Eric de Paauw

Account Manager

Team Member

Pepijn Swarte

R&D Manager

Team Member

Robin de Bruin

After Sales Engineer

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