HNBR O-ring VS NBR o-ring

Min. Order:	50 Piece/Pieces

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Basic Info

Material: Nitrile Rubber

Application: Household Appliance, Electronic Product, Industrial Component, Machinery

Effect: Hole with Seal

Cross-Section Shape: O-Rings

Additional Info

Packaging: Normal packing in bags and in the carton.Packing as customer's request.

Transportation: Ocean,Air

Port: Shanghai,Dalian,Tianjin

Product Description

HNBR O-ring VS NBR O-ring

HNBR O Ring meets higher temperatures than standard NBR. HNBR O Rings are more resistant and have recently been developed to meet higher temperatures than standard NBR. While Hydrogenated Nitrile Rubber is retaining resistance to petroleum based oils. The O Rings HNBR has a temperature range from -30°C to +150°C (-20°F to +302°F). HNBR O Rings can easily adapt the above mentioned temperature.

Silicone Rubber O Rings

Standard O-Ring Material Applications
We offer the following six standard rubber materials in a range of durometer hardnesses to satisfy practically any service condition:

Viton / FKM: Fluorocarbon exhibits exceptional resistance to chemicals, oils, temperature extremes (-13°F to +446°F), low compression set, low gas permeability and excellent aging characteristics. Applications include: aircraft engines, automotive fuel handling systems, and chemical processing industries. FKM is also suitable for high vacuum applications. It is not recommended for exposure to ketones, alkalis, and Skydrol? fluids. Custom compounds are available with improved chemical and low temperature resistance.

Nitrile / NBR: Nitrile (Buna-N) is the most widely used elastomer due to its excellent resistance to petroleum products, operating temperature range (-40°F to +257°F) and one of the best performance-to-cost values. HNBR O Ring is an ideal material for aerospace, automotive, propane and natural gas applications. Special Hydrogenated Nitrile Rubber (HNBR) compounds can improve resistance to direct ozone, sunlight, and weather exposure while increasing temperature range to +300°F.

Ethylene-Propylene / EPDM: EPDM has outstanding resistance to heat, water and steam, alkali, mild acidic and oxygenated solvents, ozone, and sunlight (-40oF to +275oF); but it is not recommended for gasoline, petroleum oil and grease, and hydrocarbon environments. This popular rubber compound is usually the first choice for low torque drive belt applications.

Fluorosilicone / FVMQ: Fluorosilicone (-75o to +400oF) combines the good high and low temperature stability of silicones with the fuel, oil, and solvent resistance of fluorocarbons. FVMQ is unparalleled for aerospace fuel systems, auto fuel emission control systems and to meet or exceed government, military, aerospace, automotive, industrial and commercial specifications. However, due to relatively low tear strength, high friction and limited abrasion resistance of these materials, they are generally not used in dynamic applications. They are also not recommended for exposure to brake fluids, hydrazine, or ketones.

Silicone / VMQ: In the Silicone family, you will find compounds which are superior as static seals in extreme temperature conditions. Standard compounds handle operating temperatures -85o to +400oF. Silicone compounds are popular in food and medical applications because they are very clean and do not impart odor or taste. Special Phenyl silicones can be used down to -148°F.

Neoprene / CR: Neoprene (-40o to +250oF) is reasonably priced and features good resistance to petroleum oils, ozone, sunlight and oxygen aging, relatively low compression set, good resilience and outstanding physical toughness.