Characteristics and performance
A robust seal assembly designed specifically for one piece pistons, the Hallite 64 double acting seal uses a rubber sealing element which has proved itself in service to be extremely wear resistant and capable of working most effectively in a wide variety of medium to heavy duty applications.
The assembly comprises a rubber seal, two split support rings and two split bearings, one of each located either side of the seal. The nitrile rubber seal is designed to have its section compressed by the housing, to ensure a low pressure seal, and when pressurised be protected from extrusion damage by the extending lips of the support ring. The support ring is manufactured from a tough but flexible polymer and scarf cut for assembly.
L section bearings provide the support and guidance for the piston and other parts of the seal.
Product details
For seals up to 90mm diameter d3 is not required. Above 90mm diameter the seals benefit from the additional support of the L-section bearings.
All seals are also suitable for two piece housings.
Note: Other sizes of this design of seal are shown under Hallite 50, 53 and 68.
Ask an expertMax pressure *
Temp range
Max speed
* Max pressure stated is dependant on the material variant selected. Please consult the datasheet for further information.
- Recomended
- Possible
- Not suitable
* For fluid types marked as possible, please call our team of experts on +91 80 2372 6000 to talk through your requirements and determine if this seal is the most suitable for your needs.
Dynamic application | Static application | |
---|---|---|
Fluids based on mineral oil | ||
Any | Recommended | Recommended |
Waterbased fluids | ||
HFA (5/95) | Possible | Recommended |
HFB (60/40 invert emulsion) | Recommended | Recommended |
HFC (water glycol) | Possible | Possible |
Water | Possible | Recommended |
Other fluid types | ||
Air/Nitrogen | Not suitable | Possible |
HFD (Phosphate ester ARYL Type) | Not suitable | Not suitable |
Synthetic esters (HEES, HFDU) | Possible | Possible |