What are valve seals?
Valve seals are technical Sealing elements, which fulfil the sealing function between moving and fixed components within a valve. They ensure that media such as gases, vapour or liquids can pass through the valve in a controlled manner. Valve without leaking unintentionally. In their function, valve seals separate areas with different pressures or different media from each other and ensure safe, leak-free operation.
The sealing system of a valve usually consists of:
- Sealing seatContact surface in the valve body
- Closing element: e.g. ball, cone or disc
- Valve sealthe elastic or plastic sealing element between the components
Valve seals are used in a wide variety of designs, including
- O-rings and flat gaskets for static sealing points
- Profile or Lip seals for dynamic movements
- Composite seals (Rubber-metal or Rubber-plastic) for high pressure and temperature ranges
Due to their central function, valve seals have a significant influence on the efficiency, safety and service life of an entire system - from simple water fittings to complex high-pressure valves in industrial plants.
Functions and applications of valve seals
The main task of a valve seal is to provide a reliable seal between moving and fixed valve components under changing pressure, temperature and media conditions. It prevents uncontrolled leakage, protects the inside of the valve from contamination and ensures uniform control characteristics.
Functions at a glance:
- Sealing: between valve seat and closing element for gas- or liquid-tight separation
- Secondary sealing: Between the valve body and gate valves, covers or connections
- Pressure maintenanceEnsuring a constant system pressure
- Protection against media leakage: Prevention of leaks to the outside
- Temperature and chemical resistance: Ensuring function under changing operating conditions
- Wear compensation: elastic adaptation to tolerances and surface roughness
Typical applications:
- Process and chemical industry: Valve seals in shut-off, control and safety valves for aggressive media
- Mechanical and plant engineering: hydraulic and pneumatic valves, pressure control and dosing systems
- Automotive industry: injection valves, cooling circuits, exhaust systems and air conditioning controls
- Energy and water technology: fittings in pumps, pipework and heating systems
- Medical and food technology: sterile Silicone- or PTFE seals in hygienic applications
- Aerospace: high-performance seals for extreme pressure and temperature changes
Valve seals therefore play a central role in the operational safety and energy efficiency of almost all fluid technology systems.
Components and materials of valve seals
The choice of material for a valve seal depends on the medium, temperature, pressure and chemical load. Valve seals must be permanently elastic, resistant to media and low-wear. Different material groups are therefore used depending on the area of application.
Typical elastomers:
- NBRoil and fuel resistant, standard material for hydraulic valves
- HNBRResistant to oil, ozone and high temperatures, ideal for automotive and industrial valves
- EPDMResistant to water, vapour, acids and alkalis, ideal for drinking water and heating systems
- FKM (Viton®): chemical-resistant, temperature-resistant up to approx. 200 °C
- Silicone (VMQ and FVMQ): high elasticity at extreme temperatures (-60 °C to +200 °C), for medicine and food technology
composite materials:
- Rubber-metal- or Rubber-PTFE-Connections for combined flexibility and stability requirements
- Multi-layer sealing systems with elastic core and supporting outer layer
Valve seals can be adapted by design to optimise durability and sealing effect:
- Preformed Sealing lips or edges for defined contact forces
- Metal support rings for mould stabilisation at high pressures
- Combined sealing and guide zones for precise movement of the Valve body
- Pressure relief holes for even load distribution
- Coated surfaces to minimise friction and reduce wear