How to Distinguish Between Glyd Ring and Stepseal

In hydraulic and pneumatic systems, seals are critical components that ensure efficient system operation. Among them, the Glyd Ring and Stepseal (also known as Step Seal) are common composite seals widely used for piston and piston rod sealing. Although both share similarities in materials and basic structure, there are significant differences in their design principles, sealing methods, and application scenarios. Correctly distinguishing and selecting the appropriate seal can effectively improve system sealing performance, reduce friction, and extend service life. This article provides a detailed explanation from the perspectives of definition, structure, performance parameters, applications, and differentiation methods to help engineers and technicians better understand and apply these two types of seals.

Definition and Characteristics of Glyd Ring

The Glyd Ring is a double-acting seal primarily composed of a rectangular cross-section slide ring made of high-wear-resistant polytetrafluoroethylene (PTFE) composite material and an O-ring rubber seal. The O-ring serves as a preloading element, providing sufficient sealing force and compensating for wear on the slide ring. This design makes the Glyd Ring suitable for piston sealing in hydraulic cylinders, enabling bidirectional sealing—that is, it can withstand pressure from both directions simultaneously.

Structural Features

• Slide ring: Rectangular cross-section, typically positioned on the inner side (for piston seals), made of PTFE material with low friction and wear resistance.
• O-ring: Positioned on the outer side, providing dynamic sealing force and compensation.
• Installation position: Generally installed on the piston, used in conjunction with guide support rings. For specifications with cylinder diameters less than 40 mm, split grooves are recommended.

Performance Parameters

• Working pressure: 0–40 MPa, up to 60 MPa maximum.
• Reciprocating speed: ≤5 m/s (typical value, slight variations by source).
• Temperature range: -35°C to +200°C (depending on O-ring material, such as NBR or FKM).
• Applicable media: Hydraulic oil, steam, water, emulsions, etc.

The advantages of the Glyd Ring include low friction, no stick-slip (creeping), small startup force, and high pressure resistance, making it suitable for applications requiring bidirectional sealing.

Definition and Characteristics of Stepseal

The Stepseal (Step Seal) is a single-acting seal composed of a stepped PTFE slide ring and an O-ring rubber seal. The O-ring provides sealing force and compensates for wear on the slide ring. It is suitable for piston rod sealing in hydraulic cylinders and can only seal pressure in one direction.

Structural Features

• Slide ring: Stepped cross-section, typically positioned on the outer side (for piston rod seals), made of PTFE material.
• O-ring: Positioned on the inner side, providing sealing compensation.
• Installation position: Generally installed on the piston rod as a unidirectional seal.

Performance Parameters

• Working pressure: 0–40 MPa, up to 60 MPa maximum.
• Reciprocating speed: ≤15 m/s (higher in some premium designs).
• Temperature range: -45°C to +200°C (depending on O-ring material).
• Applicable media: Similar to Glyd Ring, including hydraulic oil, etc.

The Stepseal features good heat dissipation, extrusion resistance, wear resistance, and low friction, making it suitable for high-pressure, high-speed unidirectional sealing environments such as industrial vehicles and construction machinery.

Methods to Distinguish Glyd Ring and Stepseal

Although both are composite seals of PTFE and O-ring, they can be distinguished through the following aspects:

1. Sealing Action:
   • Glyd Ring: Double-acting seal, withstands bidirectional pressure, suitable for piston bidirectional motion.
   • Stepseal: Single-acting seal, seals unidirectional pressure only, suitable for piston rod unidirectional sealing.
2. Structural Appearance:
   • Glyd Ring: Rectangular cross-section slide ring, O-ring typically on the outer side.
   • Stepseal: Stepped cross-section slide ring, O-ring typically on the inner side.
3. Installation Position:
   • Glyd Ring: Primarily used for piston sealing (outer sealing).
   • Stepseal: Primarily used for piston rod sealing (inner sealing).
4. Performance Differences:
   • Stepseal may offer higher reciprocating speeds (≤15 m/s vs. Glyd Ring’s ≤5 m/s), while Glyd Ring is more flexible for bidirectional sealing.
   • Pressure and temperature ranges are similar, but depend on specific material formulations.
5. Application Scenarios:
   • Glyd Ring: Suitable for hydraulic cylinder pistons requiring bidirectional sealing, such as injection molding machines and presses.
   • Stepseal: Suitable for unidirectional piston rod sealing, such as agricultural machinery and cranes.

In practice, quick identification can be achieved by observing the cross-section shape (rectangular vs. stepped) and O-ring position (outer vs. inner). If conditions allow, refer to the manufacturer’s technical manual or conduct pressure tests to verify the sealing direction.

Conclusion

As core components in the field of hydraulic sealing, Glyd Ring and Stepseal differ primarily in sealing action, structural design, and application positioning. Engineers should select based on system pressure direction, motion type, and environmental conditions. For example, prioritize Glyd Ring in bidirectional high-pressure environments and Stepseal in high-speed unidirectional rod sealing. Correct differentiation and application of these seals not only optimizes system performance but also reduces maintenance costs. In the future, with advancements in materials science, the performance boundaries of these two seals will continue to expand, offering more possibilities for industrial applications.