JIS Standard G/P Series Rubber O Ring

China JIS Standard G/P Series Rubber O Ring, Find details about China O Ring, Rubber O Ring from JIS Standard G/P Series Rubber O Ring

Model NO.
O ring
Certificate
ISO9001:2015
OEM/ODM
Yes
Production Period
Within 30 Days
Color and Dimension
Accept Customized Products
Working Media
Air, Oil, Gas, Water etc
Dimension Standard
Japan JIS Standard
Trademark
morgan
Transport Package
Box or Plastic Bag
Specification
all series
Origin
China
HS Code
4016931000
Model NO.
O ring
Certificate
ISO9001:2015
OEM/ODM
Yes
Production Period
Within 30 Days
Color and Dimension
Accept Customized Products
Working Media
Air, Oil, Gas, Water etc
Dimension Standard
Japan JIS Standard
Trademark
morgan
Transport Package
Box or Plastic Bag
Specification
all series
Origin
China
HS Code
4016931000
Description
O ring seals are circular sealing elements with circular cross-sections, may be used in static applications or in dynamic applications where there is relative motion between the parts and the O ring. Oring selection is based on chemical compatibility, application temperature, sealing pressure, lubrication requirements, durometer, size and cost. We offer you a range of elastomeric materials for both standard and special applications which allow the O Ring to seal practically all liquid and gaseous media.
Applications
O Rings are used in a variety of fields: they are either used as sealing elements or as energizing elements for hydraulic slipper seals and wipers. Thus, the O Ring is basically used in every field of industry including aerospace, automotive or general engineering. Today, O rings are one of the most common seals used in machine design because they are inexpensive, easy to make, and reliable and have simple mounting.
Technical data
Temperature-60°C / +200°C
Pressure*
Speed*
MediasThe majority of liquid, gaseous or chemical product fluids depending on the type of material selected. Refer to our fluids-materials compatibility guide.
Advantages
Compact design
Easy assembly
Economic solution
Symmetry that reduces the risks of an assembly error

Materials
Morgan O-rings Material Includes Nitrile rubber, fluorine rubber, ethylene propylene rubber, neoprene, chloroprene rubber, silicone rubber and so on.
NBR (Nitrile Butadiene Rubber)
Nitrile rubber (NBR) is the general term for acrylonitrile-butadiene copolymer. The ACN content can vary between 18% and 50%. While the acrylonitrile content is important, the resistance to oil and fuel is more so. Conversely, the elasticity and compression set are not as good. The NBR has good mechanical properties and good wear resistance. However, its resistance to atmospheric agents and the ozone is relatively low.
Chemical resistanceAliphatic hydrocarbons (propane, butane, petroleum, diesel fuel)
Mineral oils and greases
Fire-resistant fluids (HFA, HFB and HFC)
Diluted acids, alkaline and saline solutions for low temperatures
Water (up to +100°C max)
Compatibility issueFuels with a high aromatic content
Aromatic hydrocarbons (benzene)
Chlorinated hydrocarbons (trichlorethylene)
Polar solvents (ketone, acetone, acetic acid, ethylene-ester)
Strong acids
Glycol-based brake fluids
Atmospheric and ozone agents
Temperature range-30°C / +100°C (short-term peak at +120°C)
-40°C / +100°C with special NBRs
 
FKM (fluorinated rubber)
Depending on their structure and fluorine content, fluoroelastomers can vary in terms of chemical resistance and resistance to cold. This FKM-based rubber is very often used for high-temperature hydraulic and pneumatic systems, industrial valves, injection/fuel systems, motor seals and high-vacuum systems.
Chemical resistanceMineral oils and greases, ASTM n°1, IRM 902 and IRM 903 oils.
Fire-resistant liquids (HFD)
Silicone oils and greases
Mineral and vegetable oils and greases
Aliphatic hydrocarbons (propane, butane, petroleum)
Aromatic hydrocarbons (benzene, toluene)
Chlorinated hydrocarbons (trichlorethylene)
Petrol (including high alcohol content)
Atmospheric and ozone agents
Compatibility issueGlycol-based brake fluids
Ammoniac gas
Organic acids with a low molecular weight (formic and acetic acids)
Temperature range-20°C / +200°C (short-term peak at +230°C)
-40°C / +200°C with special FKMs
 
EPDM (Ethylene Propylene Diene Monomer rubber)
As an Ethylene Propylene Diene Monomer copolymer, EPDM is commonly used for hot water taps, cooling systems, brake systems, dishwashers and washing machines.
Chemical resistanceHot water and steam up to +150°C
Glycol-based brake fluids (Dot 3 & 4) and silicone-based brake fluids (Dot 5)
Organic and inorganic acids
Cleaning agents, sodium and potassium alkalis
Hydraulic fluids (HFD-R)
Silicone oils and greases
Polar solvents (alcohols, ketones and esters)
Atmospheric and ozone agents
Compatibility issueMineral oils and greases
Hydrocarbons
Low impermeability to gas
Temperature range-45°C / +150°C (short-term peak at +175°C)
 
HNBR (Hydrogenated Nitrile Butadiene Rubber)
This HNBR-based elastomer is obtained through selective hydrogenation of the NBR's butadiene groups. It is commonly used for power-assisted steering and for air conditioning.
Chemical resistanceAliphatic hydrocarbons
Mineral and vegetable oils and greases
Fire-resistant fluids (HFA, HFB and HFC)
Diluted acids, saline solutions and bases for low temperatures
Water and steam up to +150°C
Atmospheric and ozone agents
Compatibility issueChlorinated hydrocarbons
Polar solvents (ketones, esters and ethers)
Strong acids
Temperature range-30°C / +150°C (short-term peak at +160°C)
-40°C / +150°C with special HNBRs
 
VMQ (silicone rubber: methyl vinyl polysiloxane)
This FVMQ-based rubber is very often used for fuel systems.
Chemical resistanceAnimal and vegetable oils and greases
Moderate water temperature
Diluted saline solutions
Atmospheric and ozone agents
Compatibility issueSuperheated steam up to +120°C
Chlorinated hydrocarbons with a low molecular weight (trichlorethylene)
Aromatic hydrocarbons (benzene, toluene)
Temperature range-60°C / +200°C (short-term peak at +230°C)
 
FVMQ (fluorosilicone rubber)
The FVMQ has mechanical and physical properties that are very similar to those of VMQ. However, the FVMQ offers better resistance to fuels and mineral oils. However, resistance to hot air is not as good as that of VMQ.
Chemical resistanceAromatic mineral oils (IRM 903 oil)
Fuels
Aromatic hydrocarbons with a low molecular weight (benzene, toluene)
Temperature range-70°C / +175°C
 
ACM (Polyacrylate)
Polymers containing ethyl acrylate (or butyl acrylate) have a small amount of monomer, which is necessary for cross-linking; ACM is a material with better heat resistance than NBR. It is often used for automatic gearboxes.
Chemical resistanceMineral oils (motor oils, gear box oils, ATF oils)
Atmospheric and ozone agents
Compatibility issueGlycol-based brake fluids (Dot 3 & 4)
Aromatic and chlorinated hydrocarbons
Water and steam
Acids, alkalis and amines
Temperature range-25°C to + 150°C (short-term peak at +160°C)
-35°C / +150°C with special ACMs
 
AEM (ethylene acrylate rubber)
As a methyl acrylate and ethylene copolymer, AEM is considered to be better resistant to heat than ACM. Its characteristics make it an intermediary between ACM and FKM.
Chemical resistanceCoolants
Aggressive mineral oils
Atmospheric agents
Water
Compatibility issueAromatic solvents
Strong acids
Brake fluids
Gearbox oils
ATF oils
Temperature range - 40°C à + 150°C
 
CR (Polychloroprene)
This CR-based elastomer is used in the refrigeration industry and for ventilation systems. This chloroprene was the first synthetic rubber to be developed and marketed.
Chemical resistanceParaffinic mineral oils
Silicone oils and greases
Water and water-based solvents for use at low temperatures
Refrigerant fluids
Ammoniac
Carbon dioxide
Atmospheric and ozone agents
Limited chemical resistanceNaphthenic mineral oils
Aliphatic hydrocarbons (propane, butane, petroleum)
Glycol-based brake fluids
Compatibility issueAromatic hydrocarbons (benzene)
Chlorinated hydrocarbons (trichlorethylene)
Polar solvents (ketone, acetone, acetic acid and ethylene-ester)
Temperature range-40°C / +100°C (short-term peak at +120°C)
 
FFKM (perfluorinated rubber)
FFKM has the best resistance to high temperatures and an excellent chemical inertia. This FKM-based rubber is very often used for high-temperature hydraulic and pneumatic systems, industrial valves, injection/fuel systems, motor seals and high-vacuum systems.
Chemical resistanceAliphatic and aromatic hydrocarbons
Polar solvents (ketones, esters, ethers)
Organic and inorganic acids
Water and steam
High-vacuum systems
Problème de compatibilitéCoolants (R11, R12, R13, R113, R114, etc.)
PFPE
Temperature range-15°C / +320°C
 
The table below gives an overview of the physical, chemical and mechanical characteristics for each of the materials.
Characteristics/MaterialsACMAEMCREPDMFFKMFKMFVMQHNBRNBRVMQ
Resistance to abrasion2322424224
Acid resistant4322113133
Resistance to chemicals4221111222
Resistance to cold4222342222
Dynamic properties3332324124
Electrical properties3332141331
Resistance to fire4424112443
Resistance to heat1122111121
Sealing water1122224224
Resistance to oil1324112112
Resistance to ozone1121111241
Resistance to tearing2331434224
Tensile strength3221213124
Resistance to water / steam4431233123
Resistance to atmospheric agents1111111231
 
1. excellent properties    2. Good properties    3. Average properties    4. Poor properties
Chemical compatibility
A "Chemical compatibility guide" catalogue can be downloaded from the Literature section. You can also use our online "Chemical compatibility" tool free of charge.
These two tools enable you to measure the behaviour of our materials that come into contact with the majority of existing fluids. The data displayed is the result of rigorous testing at the ambient temperature and takes previous publications into consideration. Test results are not fully representative because of the specific features of your application. The tests performed actually do not consider additives and impurities that may exist under actual conditions of use, nor the potential elevation of temperatures. Other parameters can also alter the behaviour of our materials, such as the hardness, persistence, abrasion, etc. We therefore recommend performing your own tests to verify the compatibility of our materials depending on your specific application. Our technical team can provide you with any additional information.

JIS Standard G/P Series Rubber O Ring
o ring sizes:

The o ring sizes are specified by the inside diameter and the cross section diameter.
Morgan Rubber O-rings are manufactured according to metric and imperial international standards such as GB3452.1-92, AS 568B, DIN ISO 3601 and JIS standard. Morgan seals also accept custom sizes of almost any dimension, such as metric o rings, miniature O-rings, special O-rings with large dimensions and continuously moulded and spliced.
JIS Standard G/P Series Rubber O Ring


Guangzhou Morgan Seals Co., Ltd. has the biggest vulcanizing machine(4000T) and different kinds of seal moulds. So for the non-standard o ring, oil seals, hydraulic seals, please do not hesitate to contact with us. The following is the the picture Morgan Production Line and Warehouse
JIS Standard G/P Series Rubber O Ring
Our services:
Guangzhou Morgan Seals Co., Ltd the expert in sealing solution field who combines the rich seals research and production experience of her parent firm with the advanced technology and administration of Morgan, Worcester. Morgan Seals Research and Development ability is based on her parent firm who has won awards as scientific research achievements for more than 1000 projects and over 200 of them won scientific and technological progress prizes of municipal, provincial, ministerial and national levels. At the same time, it also has one National Certified Laboratory, one National Engineering Research Centers and three Industry Level Inspection Centers.
JIS Standard G/P Series Rubber O Ring

JIS Standard G/P Series Rubber O Ring