Types of O-Rings: Materials, Sizes, Shapes and Applications

O-ring is a ring-shaped elastic seal that achieves a seal between liquids and gases by creating compression within a groove. Its seemingly simple ring design is adaptable to a wide range of operating conditions, from low-pressure liquid pipelines to high-pressure industrial equipment. O-rings are classified into various types based on their material, size, shape, and application. This article will detail these classifications to help you make the right choice in selection and use.

Types of O-Ring Materials

Materials are the core factor determining the performance of O-rings. Different rubber materials give O-rings different properties, such as temperature resistance, chemical corrosion resistance, oil resistance, and aging resistance. Generally, they can be divided into two main categories: general-purpose rubber materials and special high-performance materials.


		-40 ~ +120	Excellent oil resistance, good wear and mechanical strength, cost-effective
		-20 ~ +250
		-60 ~ +200	Wide temperature range, non-toxic, aging resistant, electrically insulating
		-50 ~ +150
		-200 ~ +260
		-20 ~ +320
		-40 ~ +150

O-Ring Size Specifications

The dimensions of an O-ring directly affect its sealing performance and installation compatibility. When selecting one, the main considerations are the inner diameter (ID), cross-sectional diameter (CS/wire diameter), and standard specifications.

The diameter of the center hole of the O-ring, a critical dimension for installation on shafts or pipes.
The thickness of the O-ring, determining the amount of sealing compression and elastic deformation.
Generally used to assist in the design and spatial matching of external fittings and to help determine the installation space of the groove.


AS568 (US Standard)	AS568-214	United States & US-standard market
ISO 3601 (International Standard)	ISO 3601-18-2
JIS B 2401 (Japanese Standard)	JIS B 2401-2
DIN 3771 (German/European Standard)	DIN 3771-12

O-rings are available in various sizes. In the metric system, they are typically classified by cross-sectional diameter (CS) and inner diameter (ID).
• Thin Cross-Section: 1.5–3 mm, inner diameter <10 mm, suitable for precision equipment and small pneumatic systems.
• Standard cross-section: 3–10 mm, inner diameter 10–100 mm, suitable for industrial machinery.
• Thick cross-section: 10–20 mm, inner diameter >100 mm, suitable for large machinery and high-pressure systems.

Differences Between Various O-Ring Shapes

Although most O-rings have a circular cross-section, there are many functional shapes derived to suit different operating conditions.

Standard Circular O-Ring

The most common and versatile shape, with a circular cross-section, is easy to install and provides uniform and reliable sealing. It is suitable for static sealing and low-speed dynamic sealing, such as pipe connections, valve interfaces, and most conventional industrial applications.

O-Ring with Backup Ring

These O-rings have non-elastic PTFE or nylon backup rings on both sides of the sealing ring, which can withstand high pressure and prevent the O-ring from being extruded into gaps under high-pressure conditions. They are divided into axial backup rings and radial backup rings, widely used in hydraulic breakers, high-pressure valves, and other high-pressure hydraulic equipment.

Encapsulated O-Ring

Encapsulated O-rings use a composite structure of an elastic core and a surface coating. The core, made of NBR or FKM, provides elasticity, while the surface is coated with PTFE to form a low-friction layer, significantly reducing friction and heat buildup in dynamic sealing. They are suitable for motor shaft rotary seals, high-frequency reciprocating seals in hydraulic cylinders, and other applications requiring high wear resistance and low friction.

Special Cross-Section O-Ring

Special cross-section O-rings are often designed for non-standard grooves and include oval, square, and X-shaped profiles. Oval cross-sections are suitable for narrow grooves, allowing greater compression in a limited space. Square cross-sections provide uniform force distribution on all sides, enhancing flat surface sealing reliability. X-shaped cross-sections offer bi-directional sealing and reduce installation twisting risk. These O-rings are typically custom-made and used in special machinery or non-standard equipment sealing applications.

Where Can O-Rings Be Used?

O-ring applications can be categorized based on operating mode and industry requirements, with each application type having its own selection strategy:

Static sealing is primarily used in locations with little to no relative movement. The O-ring tightly fits the sealing surface through its compression deformation, preventing leakage of liquids or gases. Common scenarios include pipe connections, flange joints, and various cover or enclosure interfaces. For such applications, standard circular O-rings are usually sufficient and reliable.

In equipment with reciprocating motion, such as hydraulic cylinders, pneumatic cylinders, and reciprocating pumps, the O-ring moves along with the piston, piston rod, or sliding shaft. It must withstand alternating friction, compression, and stretching. To extend service life and reduce frictional heat, materials with excellent wear resistance are often chosen, or encapsulated O-rings are used to ensure smoother and more durable sealing.

Dynamic rotary sealing requires the O-ring to rotate with a shaft or rotating component while maintaining high sealing performance and minimizing friction. In equipment such as pump shafts, rotary valves, and gearbox shaft seals, encapsulated or low-friction coated O-rings effectively reduce the friction coefficient, enhance wear resistance, and withstand high temperatures, ensuring long-term stable operation.

High-Pressure Sealing

In high-pressure applications, O-rings must prevent extrusion or crushing under extreme pressure. O-rings with backup rings or special cross-section O-rings are used to improve extrusion resistance and sealing reliability. Typical applications include hydraulic systems, high-pressure pumps, and oil & chemical equipment.

Food and pharmaceutical equipment impose strict requirements on material safety and temperature resistance. O-rings must be non-toxic and odorless, capable of withstanding high and low temperatures and steam sterilization. Commonly used O-rings are made of FDA-certified silicone (VMQ) or EPDM, with high dimensional accuracy. Some designs also use encapsulated coatings to reduce contamination, ensuring hygienic and reliable sealing.

While O-rings may appear simple, their versatility in materials, sizes, shapes, and applications makes them an indispensable core component in industrial and civil sealing. Ningbo Zhonggao not only offers a wide selection of materials but also provides O-rings with custom sizes and structures. to find the perfect O-ring for your application!