Aerospace O-Rings & Seals

Flight-critical sealing for fuel, hydraulic, pneumatic, and high-temperature engine systems. We supply aerospace-grade elastomer o-rings and seals — fluorosilicone for jet fuel, EPDM for phosphate-ester (Skydrol) hydraulics, FKM and FFKM for high-temperature service — in AS568 and NAS1611 sizes, with domestic manufacturing available for defense and supply-chain-sensitive programs.

AS9100 · ITAR Registered AS568 & NAS1611 Sizes Fuel & Skydrol Resistant Domestic Manufacturing Available

Aerospace systems we seal

  • Hydraulic actuators, flight controls, landing gear
  • Fuel systems — tanks, lines, pumps, manifolds
  • Environmental control & pneumatic systems
  • Engine & turbine hot-section seals
  • Avionics enclosures & EMI/RFI shielding

Aerospace sealing is a materials problem before it is a sizing problem. The same AS568 dash number can succeed or fail depending entirely on the compound: jet fuel, phosphate-ester hydraulic fluid, ozone, and a service window that can swing from −65°F at altitude to well over +400°F near an engine all demand different elastomers. This page maps aerospace systems and fluids to the right seal material, lists the standards we build to, and explains the domestic-sourcing options that matter for defense and supply-chain-sensitive programs. If you already have a print or spec, send it to us for a quote.

Aerospace o-rings and seals for aircraft fuel, hydraulic, and engine systems
Aerospace-grade o-rings and seals in AS568 and NAS1611 sizes — FVMQ for fuel, EPDM for Skydrol, FKM and FFKM for high heat.

Select an aerospace seal by application

Start with the system and the fluid or environment the seal contacts, then choose the compound. The most common aerospace sealing failures come from putting a fuel-rated compound in a Skydrol line, or a standard nitrile in a high-temperature engine location.

Aerospace material selector

Three questions: what system, what fluid or environment contacts the seal, and what compound handles it across the temperature range.

System / application Fluid or environment Recommended compound Material
Fuel systems (Jet A, JP-4, JP-5, JP-8) Hydrocarbon jet fuel + wide temperature range Fluorosilicone (FVMQ) FVMQ →
Hydraulic systems — commercial aircraft Phosphate-ester fluid (Skydrol, Hyjet) EPDM EPDM →
Hydraulic systems — petroleum-based MIL-PRF-5606 / -83282 / -87257 fluids Nitrile (NBR) or FKM NBR →
Engine & turbine hot section High temperature, fuel, synthetic lubricants FKM or FFKM FKM →
Extreme temperature / aggressive media Continuous high heat + chemical attack FFKM (perfluoroelastomer) FFKM →
Environmental control / pneumatic / static Wide temperature, air, ozone, weathering Silicone (VMQ) VMQ →
High-temp static / backup rings / anti-extrusion Chemically inert, low friction, high temp PTFE PTFE →

Critical rule: phosphate-ester hydraulic fluids (Skydrol, Hyjet) attack nitrile and fluorocarbon. Commercial aircraft hydraulic seals running these fluids must be EPDM. Confirm your hydraulic fluid spec before selecting a compound.

Aerospace seal materials

Fluorosilicone (FVMQ) Fuel + wide temp

Fluorosilicone is the aerospace fuel-system workhorse. It combines the fuel and oil resistance of fluorocarbon with the extreme low-temperature flexibility of silicone — a combination almost no other elastomer offers. That makes it the default choice wherever a seal sees jet fuel and high-altitude cold.

  • Typical service range: roughly −75°F to +350°F
  • Resists Jet A, JP-4, JP-5, JP-8, di-ester lubricants
  • Common spec callouts: AMS 7379, MIL-DTL-25988
  • Applications: fuel tank seals, fuel line fittings, pump seals
Why not plain silicone or plain FKM? Silicone has the cold flexibility but poor fuel resistance; FKM has the fuel resistance but stiffens badly in the cold. FVMQ is the bridge — it is specified precisely for the fuel-plus-cold case. More on FVMQ →

Spec an FVMQ seal

Request a Quote → FVMQ details

AS568 & custom sizes.

EPDM — phosphate-ester hydraulics Skydrol / Hyjet

Commercial aircraft hydraulic systems run phosphate-ester fluids (commonly known by the trade names Skydrol and Hyjet) for fire resistance. These fluids chemically attack nitrile and fluorocarbon. EPDM is the required elastomer family — it is essentially inert in phosphate esters and holds up across the hydraulic temperature range.

  • Typical service range: roughly −65°F to +300°F
  • Excellent in phosphate-ester hydraulic fluid, water, steam, ozone
  • Applications: flight-control actuators, landing gear, hydraulic manifolds
Do not substitute: nitrile (NBR) or fluorocarbon (FKM) o-rings will swell, soften, and fail in Skydrol-class fluids. EPDM and phosphate ester are a matched pair — and EPDM must not be used in petroleum-based hydraulic systems, where it fails. Match the elastomer to the fluid family.

More on EPDM →

Skydrol-compatible seals

Request a Quote → EPDM details

Phosphate-ester rated.

FKM & FFKM — high-temperature service Engine / turbine

For high-temperature locations — engine accessories, turbine areas, hot fuel, and synthetic lubricant contact — fluorocarbon (FKM) and perfluoroelastomer (FFKM) are the aerospace high-heat materials. FKM covers the broad high-temp range economically; FFKM is reserved for the most extreme combination of heat and chemical attack, where its near-universal chemical resistance and continuous service above +500°F earns the premium.

  • FKM service range: roughly −15°F to +400°F (low-temp grades extend colder)
  • FFKM service range: up to roughly +600°F continuous (grade-dependent)
  • Compatible with synthetic gas-turbine engine oils — MIL-PRF-23699, MIL-PRF-7808
  • High-modulus 90 durometer FFKM grades resist extrusion and rapid gas decompression (RGD)
  • Peroxide-cured FFKM grades (e.g. AMS 7257) for aerospace and aggressive chemical service
  • FKM specs: AMS 7276 / AMS 7280; AMS-P-83461 / MIL-P-83461 packings
  • Applications: engine seals, hot-air / bleed systems, fuel at temperature, accessory gearbox
FKM vs FFKM: choose FKM for cost-effective high-temperature fuel and oil sealing; step up to FFKM only when temperature, chemical aggressiveness, or both exceed FKM’s limit. For high-pressure or rapid-cycling gas service, specify an RGD-resistant high-modulus FFKM grade. More on FKM →

High-temp aerospace seals

Request a Quote → FFKM details

FKM & FFKM to spec.

Aerospace material reference

Quick reference for aerospace elastomer selection. Service ranges are typical and compound-dependent — confirm against your program specification.

Material Typical temp range Best for Avoid in
FVMQ (fluorosilicone) −75°F to +350°F Jet fuel + cold; fuel system seals High-pressure dynamic duty
EPDM −65°F to +300°F Phosphate-ester (Skydrol) hydraulics Petroleum oils & fuels
FKM (fluorocarbon) −15°F to +400°F High-temp fuel & oil; engine areas Skydrol; extreme cold (std grades)
FFKM up to +600°F Extreme heat + chemical attack Cost-sensitive standard duty
NBR (nitrile) −40°F to +250°F Petroleum hydraulic fluid & fuel Skydrol; ozone; high heat
VMQ (silicone) −75°F to +400°F Static seals, ECS, ozone/weathering Fuel; dynamic / abrasion duty
PTFE −100°F to +450°F Backup rings, inert static seals Applications needing elastic recovery

Engineered performance attributes

Aerospace and space programs often specify sealing performance beyond a basic fluid-and-temperature rating. These are the engineered attributes to call out on an RFQ when the application demands them — specify the requirement and we’ll match the compound and grade.

Rapid gas decompression (RGD / explosive decompression)

In high-pressure gas systems, dissolved gas can rupture a seal from the inside when pressure drops quickly. High-modulus 90-durometer FFKM and specially compounded FKM grades are formulated to resist rapid gas decompression (RGD), also called explosive decompression (ED). Specify RGD resistance for high-pressure pneumatic, bleed-air, and gas-charged applications. More on rapid gas decompression →

Low outgassing — vacuum & space

For space, satellite, and vacuum service, materials are screened for outgassing per NASA ASTM E595 (TML ≤ 1.0%, CVCM ≤ 0.10%). Low-outgassing, cleanroom-handled FFKM and silicone grades maintain vacuum leak-tightness and avoid contaminating optics and sensitive surfaces.

Cryogenic & LOX / oxygen service

Launch-vehicle and propulsion systems demand cryogenic sealing for liquid oxygen (LOX), liquid nitrogen, and liquid hydrogen, plus oxygen compatibility for gaseous O₂ systems. Material selection and cleaning (oxygen-clean processing) are both critical here — call out the media and cleanliness level on the RFQ.

Plasma & thermal cycling resistance

Specialty FFKM grades resist plasma and reactive-gas attack (shared with semiconductor process sealing) and survive repeated thermal cycling with low compression set, so the seal recovers and keeps sealing across thousands of cycles.

Specify a performance grade

Request a Quote → FFKM grades

RGD, low-outgassing, cryogenic, and plasma-resistant compounds to spec.

Standards & sizes we build to

Aerospace seals are specified against a layered set of size, material, and quality standards. We supply to standard size systems and work from your AMS, MIL, MS, or NAS callouts.

Size & packing standards

  • AS568 — the SAE aerospace standard for o-ring inch sizes (the industry baseline). See the AS568 chart →
  • NAS1611 — National Aerospace Standard o-ring sizes for hydraulic and pneumatic packings
  • AS3578 / AS3209 — aerospace o-ring sizing and packing standards
  • MS / AN part numbers — MS28775, MS29561, MS9388, MS28778 and related military-standard dash systems

Material specifications

  • FKM: AMS 7276, AMS 7280, AMS-P-83461 / MIL-P-83461 (improved-performance packings)
  • FVMQ (fluorosilicone): AMS 7379, MIL-DTL-25988
  • NBR (nitrile): AMS 7270 / MIL-P-25732 (hydraulic packings)
  • FFKM: AMS 7257 (peroxide-cured perfluoroelastomer) and program-specific grades
  • Silicone: AMS 7271 (VMQ)

Aerospace fluids we match compounds to

  • Fuels: Jet A, JP-4, JP-5, JP-8
  • Hydraulic: phosphate ester (Skydrol, Hyjet); petroleum MIL-PRF-5606 / -83282 / -87257
  • Turbine engine oils: MIL-PRF-23699, MIL-PRF-7808, MIL-PRF-85734

Working to a specific AMS/MIL/NAS callout or a controlled drawing? Send the spec with your RFQ and we’ll quote to it.

Quality & compliance

Aerospace and defense procurement requires documented quality and supply-chain compliance. Our credentials and capabilities include:

  • AS9100 aerospace quality management system, built on ISO 9001 — see our quality & certifications
  • ITAR registered for programs involving controlled defense articles and technical data
  • NADCAP special-process accreditation
  • DFARS and Buy American domestic-content sourcing — domestic manufacturing available on request
  • Material certifications, certificates of conformance (C of C), and full lot traceability on request

Need specific quality documentation with your order? Note it on your RFQ.

Domestic manufacturing & supply-chain sourcing

USA-based, with domestic manufacturing available

Aerospace and defense programs increasingly carry domestic-content and supply-chain-traceability requirements — Buy American, DFARS, and program-specific sourcing rules. We are a US-based supplier and offer domestic manufacturing on request for o-rings and seals where the program requires it, alongside our standard inventory for prototyping and lower-criticality applications.

For custom geometries, non-standard sizes, and program-specific compounds, our custom molded o-ring program produces to your drawing. Defense and military programs — including MIL-spec o-ring requirements — are covered on our defense & military seals page.

Explore American-made oil seals & o-rings →

Domestic manufacturing of aerospace o-rings and seals in the USA
Domestic manufacturing available for aerospace and defense programs.

Aerospace applications we support

  • Hydraulic systems — flight-control actuators, landing gear, brakes, and manifolds (EPDM for phosphate ester; NBR/FKM for petroleum fluids)
  • Fuel systems — tanks, lines, pumps, valves, and manifolds (FVMQ for fuel-plus-cold; FKM for hot fuel)
  • Environmental control & pneumatic systems — bleed air, cabin pressurization, ducting (VMQ, FKM)
  • Engine & turbine — accessory seals, hot-section static seals (FKM, FFKM)
  • Avionics & electronics enclosures — environmental sealing and EMI/RFI shielding gaskets
  • Space, satellite & launch vehicles — low-outgassing, cryogenic, and LOX-compatible seals for propulsion and vacuum service
  • UAV / unmanned systems — compact fuel, hydraulic, and pneumatic sealing
  • Ground support & MRO — replacement and overhaul seals across legacy and current platforms

Why source aerospace seals from us

AS9100 & ITAR

AS9100 / ISO 9001 quality system, ITAR registered, NADCAP accredited.

USA-based sourcing

Domestic manufacturing available; DFARS and Buy American capable.

Material breadth

FVMQ, EPDM, FKM, FFKM, NBR, VMQ, and PTFE from one source.

Custom & standard

AS568/NAS1611 stock plus custom molded geometries to drawing.

Aerospace sealing FAQ

What o-ring material is used in aircraft fuel systems?

Fluorosilicone (FVMQ) is the standard o-ring material for aircraft fuel systems. It resists hydrocarbon jet fuels (Jet A, JP-4, JP-5, JP-8) while staying flexible at the very low temperatures encountered at altitude — roughly −75°F to +350°F. Fluorocarbon (FKM) is also used where the fuel runs hot but extreme cold is not a factor. Standard nitrile is generally not used in modern aircraft fuel systems because it cannot match the temperature range.

What seal material is compatible with Skydrol hydraulic fluid?

EPDM is the seal material compatible with Skydrol and other phosphate-ester aviation hydraulic fluids (such as Hyjet). Phosphate esters chemically attack nitrile (NBR) and fluorocarbon (FKM), causing them to swell and fail, so commercial aircraft hydraulic systems running these fluids use EPDM o-rings and seals. Note that EPDM must not be used in petroleum-based hydraulic systems, where the opposite is true and nitrile or fluorocarbon is required.

What is fluorosilicone (FVMQ) used for in aerospace?

Fluorosilicone (FVMQ) is used in aerospace wherever a seal must resist fuel and oil while remaining flexible in extreme cold. It combines the fuel resistance of fluorocarbon with the low-temperature flexibility of silicone, which makes it the default material for aircraft fuel tank seals, fuel line fittings, and fuel pump seals. Typical specifications include AMS 7379 and MIL-DTL-25988.

What temperature range do aerospace o-rings need to handle?

Aerospace o-rings can see anywhere from about −65°F to −75°F at altitude up to +400°F or higher near engines and turbines, so the required range depends entirely on the location. Fluorosilicone covers the low end with fuel resistance; FKM covers high-temperature fuel and oil; FFKM extends continuous service to roughly +600°F; silicone offers the widest range for static, non-fuel applications. Always select the compound for the specific temperature window of the application.

Do you supply aerospace and mil-spec o-rings to AMS, MIL, and NAS standards?

Yes. We supply o-rings and seals to AS568 and NAS1611 size standards and work from AMS material specifications (such as AMS 7276 for FKM and AMS 7379 for fluorosilicone), MIL-DTL/MIL-PRF specifications, and MS part-number callouts. Send your specification or controlled drawing with a quote request and we will quote to it. Defense and military requirements are covered in more detail on our mil-spec o-rings page.

Can you provide domestically manufactured aerospace seals?

Yes. We are a US-based supplier and offer domestic manufacturing on request for o-rings and seals, which supports Buy American, DFARS, and program-specific domestic-content and supply-chain-traceability requirements common in aerospace and defense work. Standard inventory is available for prototyping and lower-criticality applications, and custom molded production is available to your drawing.

What material should I use for high-temperature engine seals?

Use fluorocarbon (FKM) for most high-temperature aerospace engine and accessory seals — it handles roughly −15°F to +400°F with strong fuel and oil resistance and is compatible with synthetic turbine engine oils (MIL-PRF-23699, MIL-PRF-7808). Step up to perfluoroelastomer (FFKM) when the application combines extreme heat (up to about +600°F continuous) with aggressive chemical exposure. FFKM costs more but provides near-universal chemical resistance where FKM reaches its limit.

Are FFKM o-rings rapid gas decompression (RGD) resistant?

High-modulus FFKM grades, typically at 90 Shore A durometer, are formulated to resist rapid gas decompression (RGD), also called explosive decompression (ED). RGD occurs when gas dissolved into the elastomer under pressure expands and ruptures the seal as system pressure drops quickly. For high-pressure pneumatic, bleed-air, and gas-charged aerospace applications, specify an RGD-resistant high-modulus FFKM (or a specially compounded FKM) and we will match the grade to the pressure and cycle requirements.

Do you supply low-outgassing seals for space and vacuum applications?

Yes. For space, satellite, and vacuum service, materials are screened for outgassing per NASA ASTM E595, with typical acceptance limits of TML (total mass loss) ≤ 1.0% and CVCM (collected volatile condensable materials) ≤ 0.10%. Low-outgassing, cleanroom-handled FFKM and silicone grades maintain vacuum leak-tightness and avoid contaminating optics and sensitive surfaces. Cryogenic (LOX, liquid nitrogen, liquid hydrogen) and oxygen-compatible options are also available — specify the media and cleanliness level on your RFQ.

Get aerospace sealing support

Request a quote

Send your AS568/NAS1611 size, material spec, or controlled drawing. We quote standard and custom aerospace o-rings and seals, with domestic manufacturing available on request.

Request a Quote →

Talk to engineering

Not sure which compound fits your fluid and temperature window? Our team helps match the material to your application and specification.

Contact Us →

Trade names referenced (e.g. Skydrol and Hyjet for phosphate-ester hydraulic fluids; Viton, the common name for fluorocarbon FKM) identify generic fluid and material chemistries. Trademarks are the property of their respective owners and are referenced for identification only. Temperature ranges and material recommendations on this page are general engineering guidance and are compound- and grade-dependent — verify against your program specification and controlled drawing before release.

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