Common O-Ring materials that are SUITABLE for dynamic and static seal in the environment containing Oxalic Acid include
- Butyl: Butyl (IIR) is a synthetic rubber, a copolymer of isobutylene and isoprene.
- Chemraz: Chemraz combines the resilience and sealing force of an elastomer with chemical resistance approaching that of PTFE.
- Ethylene-Propylene: Ethylene-propylene (EP) is a copolymer of ethylene and propylene.
- Fluorocarbon: Fluorocarbon elastomer (FKM) material is also known by its tradename VITON or Fluorel.
- Fluorosilicone: Fluorosilicone combines excellent low-temperature performance of silicone with improved chemical resistance.
- Hypalon: Hypalon is the traenme of a clasof Chlorosulfonated Polyethylene (CSM).
- Kalrez: Kalrez is the tradename for a perfluoroelastomeric material.
- Styrene Butadiene: Styrene-Butadiene rubber (SBR) has properties similar to those of natural rubber.
- Vamac: Vamac is the tradename of a class of Ethylene Acrylic elastomer (AEM).
The O-Ring materials below are USUALLY SUITABLE for static seal in the environment containing Oxalic Acid.
- Buna-N (Nitrile): Buna-N, also known as Nitrile rubber, is a synthetic rubber copolymer of acrylonitrile (ACN) and butadiene.
- Neoprene: Neoprene is a homopolymer of chlorobutadiene (CR).
- Hydrogenated Nitrile: Hydrogenated Nitrile Butadiene Rubber (HNBR) is also known as Highly Saturated Nitrile (HSN).
- Millable Polyurethane: Millable Polyurethane rubber is made from both polyester and polyether polyols.
- Silicone: Silicone is a semi-organic elastomer with outstanding resistance to extremes of temperature.
The following O-Ring materials are SOMETIMES OK for static seal but not for dynamic seal in the environment containing Oxalic Acid.
- Epichlorohydrin: Epichlorohydrin (ECO) has properties similar to nitrile rubber but with better heat and oil resistance as well as better low temperature flexibility.
- Natural Rubber: Natural rubber is a product coagulated from the latex of the rubber tree, hevea brasiliensis.
O-Ring materials that are NOT SUITABLE for using in the environment containing Oxalic Acid include
- Polysulfide: Polysulfide was one of the first commercial synthetic elastomers.
There is not enough data to determine whether the following common O-Ring materials are suitable for using in the environment containing Oxalic Acid or not.
- Aflas: Aflas is the tradename for a unique fluoroelastomer based upon an alternating copolymer of tetrafluoroethylene and propylene ("TFE/P").
- Polyacrylate: Polyacrylate (ACM) is a class of copolymer of ethyl and acrylates.
- Cast Polyurethane: Cast Polyurethane exhibits outstanding tensile strength and abrasion resistance in comparison with other elastomers.
- Virgin Teflon: Because Teflon is a hard plastic rather than a stretchy elastomer, it is uncommon to see an o-ring that is made entirely of Teflon.
Glossary: Design: Oring: Chemical: Glucose
Glossary: Design: Oring: Chemical: Dry Sulfur Dioxide Gas
Glossary: Design: Oring: Chemical: Tetrachloroethane
Glossary: Design: Oring: Chemical: Acetone
Glossary: Design: Oring: Chemical: Benzyl Benzoate
Glossary: Design: Oring: Chemical: Hot Gas Ammonia
Glossary: Design: Oring: Chemical: Tetrabromoethane
Glossary: Design: Oring: Chemical: Carbon Monoxide
Glossary: Design: Oring: Chemical: Freon 31