Inconel 718 (UNS N07718) — Materials Engineering Reference | RR Hydraulic
Formal Request for Quotation — Inconel 718 (UNS N07718) Bar & Fasteners
Submit Your
RFQ Today
RR Hydraulic supplies Inconel 718 (UNS N07718) bar, rod, and machined fasteners/components — per ASTM B637 / AMS 5662/5663 and ASME SB equivalents, age-hardened for maximum strength — for aerospace gas turbine, oil & gas high-pressure/high-temperature completion equipment, and critical high-strength fastener applications. Submit your form, condition, size, and quantity for a competitive, fully documented quotation within 24 hours.

Certifications: EN 10204 3.1 / 3.2 material test certificates, NACE MR0175 compliance documentation, PMI verification, and complete export documentation packages.
Email RFQ → sales@rrhydraulics.com
Response within 24 business hours  ·  All specifications treated confidentially
Materials Engineering Reference

Inconel
718
(UNS N07718)

A world-class technical reference for EPC contractors, aerospace and oil & gas engineers, procurement heads, and TPI inspection agencies specifying Inconel 718 nickel-chromium-iron-niobium superalloy — covering the gamma-double-prime precipitation hardening mechanism, the critical NACE MR0175 hardness constraint, notorious machining difficulty, strain-age cracking weldability concerns, and the QC and documentation discipline required for critical aerospace and high-pressure/high- temperature oil & gas equipment supply.

UNS N07718 Ni-Cr-Fe-Nb Superalloy (Age-Hardenable) ASTM B637 / AMS 5662 / AMS 5663 Service to ~650–700°C Yield Strength up to ~1170 MPa (STA) EN 10204 3.1/3.2 · NACE MR0175
Part 01 / Industry Context & Technical Definition
Superalloy Metallurgy,
Precipitation Hardening
& Selection Logic

Inconel 718 (UNS N07718) is a precipitation-hardenable nickel- chromium-iron superalloy — the single most widely used nickel- based superalloy in the world by volume, prized for its exceptional combination of very high strength, good corrosion and oxidation resistance, and useful mechanical properties across an unusually broad temperature range from cryogenic to approximately 650–700°C.

Inconel 718 (UNS N07718) — RR Hydraulic Engineering Reference

1.1 — What Inconel 718 (UNS N07718) Is

Inconel 718 is a nickel-chromium-iron-based superalloy with a nominal composition of approximately 50–55% nickel, 17–21% chromium, 4.75–5.5% niobium (plus tantalum), 2.8–3.3% molybdenum, and a controlled titanium and aluminium addition, with the balance comprising iron and minor elements. The alloy’s defining metallurgical feature — and the reason it superseded many earlier superalloys for a huge range of applications — is its precipitation-hardening mechanism based on the niobium addition, which forms a metastable gamma-double-prime (γ″, Ni₃Nb) strengthening phase during ageing heat treatment. This gamma-double-prime phase responds much more slowly to precipitation kinetics than the gamma-prime (Ni₃(Al,Ti)) phase that strengthens alloys like Monel K500 (discussed in RR Hydraulic’s dedicated reference) or other aluminium/titanium-hardened superalloys — this slower response gives Inconel 718 excellent weldability relative to most other high- strength age-hardenable superalloys, since the alloy does not rapidly harden and crack during the heat-affected zone cooling cycle of welding the way faster-responding gamma-prime alloys often do (discussed further in Section 3.3).

1.2 — Key Engineering Properties

Exceptional Strength Across a Broad Temperature Range

In the fully age-hardened (solution treated and aged, STA) condition, Inconel 718 achieves yield strength typically in the range 1030–1170 MPa — among the highest of any commercially available nickel alloy — and retains useful strength from cryogenic temperatures up to approximately 650–700°C, a temperature range broader than most competing superalloys, making it the standard high-strength material for demanding structural and fastener applications across aerospace, oil & gas, and power generation.

Good Corrosion and Oxidation Resistance

The chromium content provides good general corrosion and oxidation resistance, though Inconel 718’s primary selection driver is mechanical strength rather than the specific aqueous corrosion resistance profile of alloys like Incoloy 825 or Hastelloy C-276 (discussed in RR Hydraulic’s dedicated references) — for the most aggressive aqueous chemical process corrosion environments, a corrosion-optimised alloy rather than 718 is typically the better choice, reserving 718 for applications where high strength is the dominant requirement.

Excellent Fatigue and Fracture Toughness

Inconel 718 offers a well-documented, favourable combination of high strength with good fatigue resistance and fracture toughness — a combination that is difficult to achieve simultaneously in many high-strength alloy systems, making 718 particularly well suited to rotating and cyclically loaded aerospace gas turbine components as well as high-pressure, cyclically loaded oil & gas completion equipment.

Relatively Good Weldability for a High-Strength Superalloy

As discussed in Section 1.1, the gamma-double-prime precipitation mechanism’s slower kinetics give 718 meaningfully better weldability than most comparably high-strength age-hardenable superalloys — 718 can be welded in the solution-annealed condition and subsequently aged, or welded and re-aged, with proper procedure control, whereas many aluminium/titanium-hardened superalloys are essentially unweldable in the age-hardened condition without severe strain-age cracking risk.

1.3 — Comparison to Inconel 625

Table 1.A — Inconel 718 vs. Inconel 625 Comparison
PropertyInconel 718 (N07718)Inconel 625 (N06625)
Strengthening mechanismAge-hardenable (γ″ Ni₃Nb precipitation)Solid-solution strengthened (Mo/Nb), not age-hardenable to the same degree
Typical yield strength (STA vs. annealed)1030–1170 MPa (STA)415–480 MPa (annealed)
Primary selection driverMaximum strength at elevated temperatureCombined high-temperature strength + excellent aqueous/sour corrosion resistance
Typical applicationAerospace turbine disks/fasteners, high-strength oil & gas completion equipmentSour service piping, marine, chemical process piping requiring both strength and corrosion resistance
Selection principle: Specify Inconel 718 where maximum achievable strength at elevated temperature is the dominant design driver — aerospace gas turbine components, high-strength fasteners, and oil & gas high-pressure/high-temperature completion tooling. Specify Inconel 625 instead where a combination of good (though lower than 718) strength and superior aqueous/sour corrosion resistance is required — general sour service piping, marine components, and chemical process equipment.
Part 02 / Standards, Product Forms & Mechanical Properties
Governing Standards,
Heat Treatment Conditions
& Mechanical Reference

Inconel 718 is manufactured primarily as bar, rod, and forging stock for high-strength fastener and component manufacture, governed by specific ASTM and aerospace material specifications. Full detail on related nickel alloys is available across our standards reference library.

Inconel 718 Standards and Heat Treatment — RR Hydraulic
Formal R.F.Q. — Inconel 718 Bar and Fasteners for Aerospace / Oil & Gas Projects
Submit form, condition, size, and quantity to sales@rrhydraulics.com for a certified offer.

2.1 — Governing Standards

ASTM B637 — Precipitation-Hardening Nickel Alloy Bar

The primary general industrial standard governing precipitation-hardening nickel alloy bar and rod including Inconel 718 — defines chemical composition and mechanical properties by heat treatment condition (annealed, solution treated, or fully age-hardened).

AMS 5662 / AMS 5663 — Aerospace Bar and Forging Stock

The primary aerospace material specifications for Inconel 718 bar (AMS 5662) and forgings (AMS 5663), imposing considerably more rigorous chemistry, grain size, mechanical testing, and process control requirements than the general industrial ASTM B637 baseline — the standard specifications for aerospace-critical 718 fastener and component supply.

AMS 2774 — Heat Treatment Specification

Governs the qualified solution treatment and precipitation (ageing) heat treatment process parameters for Inconel 718, ensuring the correct, documented heat treatment cycle is applied to achieve the specified mechanical property condition.

NACE MR0175 / ISO 15156

Provides the mandatory material qualification framework and, critically, maximum hardness limits for Inconel 718 used in sour (H₂S-containing) oil and gas service — one of the most specification-critical constraints for 718 in oil & gas high-pressure/high-temperature completion equipment, discussed further in Section 3.1.

2.2 — Mechanical Properties by Heat Treatment Condition

Table 2.A — Inconel 718 Mechanical Properties by Condition
ConditionDescriptionTensile Strength (MPa)Yield Strength (MPa)Elongation (%)
Solution AnnealedSolution treated only, no ageing860–970380–48035–50
Solution Treated and Aged (STA)Standard age-hardened condition1240–14201030–117012–20
Direct Aged (DA, no solution treatment)Used for specific hot-worked/forged conditions1310–14501100–124010–16

Values are indicative — always verify the specific supplier’s heat treatment process qualification data and the current ASTM B637/AMS 5662/5663 revision for the exact mechanical property guarantee applicable to a specific ordered condition.

2.3 — Solution Treatment and Two-Step Ageing Heat Treatment

Inconel 718 achieves its full mechanical property range through solution treatment (typically 925–1010°C, temperature selected based on the desired grain size and subsequent mechanical property target) followed by a precisely controlled two-step ageing treatment — commonly 720°C for approximately 8 hours, furnace-cooled to 620°C and held for a further period, then air cooled. This specific two-step ageing profile is required to develop the optimum combination of gamma-double-prime (Ni₃Nb) and gamma-prime (Ni₃(Al,Ti)) precipitate distribution that gives 718 its full strength — a single-step ageing treatment does not achieve equivalent mechanical properties, making correct, documented two-step ageing process control an essential verification point for any critical 718 component supply.

Part 03 / NACE Hardness Constraint, Machining & Weldability
Sour-Service Hardness Limits,
Machining Difficulty
& Strain-Age Cracking

Inconel 718’s exceptional strength brings three specific engineering constraints that must be actively managed: a NACE MR0175 hardness ceiling for sour service, notoriously difficult machining behaviour, and strain-age cracking susceptibility during welding of age-hardened material.

Inconel 718 NACE Hardness, Machining and Weldability — RR Hydraulic

3.1 — NACE MR0175 Hardness Constraint for Sour Service

Critical — Inconel 718 for Sour Oil & Gas Service Carries a Mandatory Maximum Hardness Limit: NACE MR0175/ISO 15156 imposes maximum hardness limits on Inconel 718 used in H₂S-containing (sour) oil and gas production service — similar in principle to the 35 HRC constraint discussed for Monel K500 in RR Hydraulic’s dedicated reference, though the specific numerical limit and additional qualification requirements (including specific heat treatment condition restrictions and, for some service categories, supplementary testing) for Inconel 718 in sour service are more complex and should be verified against the current NACE MR0175/ ISO 15156 edition for the specific application, well pressure, and service category. This constraint is a major practical consideration for 718 used in high-pressure/high-temperature (HPHT) oil and gas completion equipment, since well fluids in HPHT service frequently contain H₂S, and the fully age-hardened (highest strength) condition of 718 may not be compliant with the applicable sour service hardness limit — always confirm the specific well’s H₂S partial pressure and the applicable NACE material qualification category before finalising the heat treatment condition and strength level for HPHT completion equipment.

3.2 — Machining Difficulty

Notoriously Difficult to Machine

Inconel 718, particularly in the age-hardened condition, is widely regarded among the most difficult common engineering alloys to machine — the combination of very high strength, significant work-hardening tendency, low thermal conductivity (concentrating cutting heat at the tool edge, similar in principle to the titanium machining challenges discussed in RR Hydraulic’s Titanium Grade 5 reference), and the abrasive nature of the hard carbide/intermetallic precipitates all combine to cause rapid tool wear and demand very conservative cutting parameters.

Specialized Tooling Requirements

Machining 718, especially in the fully aged condition, typically requires ceramic or advanced-coated carbide tooling, rigid machine tool setups to minimise vibration/chatter, generous and effective coolant application, and significantly reduced cutting speeds and feeds compared to machining carbon or standard stainless steel — production planning for 718 components must budget substantially higher machining time and tooling cost than for less demanding alloys.

Machining Before Full Age-Hardening

As with Monel K500 (discussed in RR Hydraulic’s dedicated reference), many manufacturers machine Inconel 718 components in the solution-annealed or partially-aged condition and perform the final full ageing heat treatment after machining — substantially reducing machining difficulty and tool wear compared to machining the fully hardened condition, though this requires accounting for any dimensional change during the final ageing step, which is typically minor but should be verified for precision-toleranced components.

3.3 — Strain-Age Cracking Risk in Welding

While Inconel 718’s slower gamma-double-prime precipitation kinetics give it better weldability than many comparably high-strength superalloys (Section 1.1), the alloy remains susceptible to strain-age cracking — a specific failure mode where residual welding stress combines with the onset of precipitation hardening during post-weld heat treatment or in-service thermal exposure, causing intergranular cracking in the heat-affected zone before the material can relieve the stress through ductile deformation. This risk is managed through correct welding procedure qualification (controlled heat input, appropriate preheat/interpass temperature control), welding in the solution-annealed (rather than pre-aged) condition where practical, and carefully controlled post-weld heat treatment cycles — welding procedures for 718 should be qualified specifically for this alloy and its intended heat treatment condition rather than assumed from general nickel alloy welding practice.

Part 04 / QC, Applications & Export
Inspection Protocol,
Industry Applications
& Documentation

RR Hydraulic maintains full traceability from certified nickel superalloy heat to finished, tested, and packed Inconel 718 component shipment. Chemical composition, mechanical, hardness, and grain size verification are standard on all project-grade supply.

Inconel 718 Inspection and QC — RR Hydraulic

4.1 — Inspection & QC Protocol

CHEM
Chemical Composition
Verification of Ni, Cr, Nb, Mo, Ti, Al, and Fe content against ASTM B637/AMS 5662/5663 composition limits — the niobium content in particular is critical to confirming correct gamma-double-prime strengthening potential.
PMI
Positive Material Identification
XRF verification of alloy content on 100% of production lots, confirming the declared 718 composition and rejecting substitution with a different nickel superalloy of similar appearance.
GRAIN
Grain Size Verification
Metallographic examination confirming the specified grain size requirement is met — a critical, specification-driving verification for aerospace-grade 718, since grain size directly affects fatigue performance and mechanical property consistency.
MECH
Mechanical Testing
Tensile, yield, and elongation testing per ASTM E8 on production test coupons per heat/lot, confirming the specified heat treatment condition’s minimum mechanical property requirements are met.
HARD
Hardness Testing — NACE Critical
Rockwell C hardness testing on production lots, confirming the target strength level is achieved and, for sour-service supply, verifying compliance with the applicable NACE MR0175 hardness limit discussed in Section 3.1.
HT
Heat Treatment Process Verification
Confirms and documents the solution treatment and two-step ageing process parameters applied to the specific lot, cross-referenced to the resulting mechanical property and hardness test results per AMS 2774.
NDT
Non-Destructive Testing
Ultrasonic testing on bar and billet product per the applicable ASTM /AMS NDT standard, detecting internal discontinuities before shipment — particularly important given the alloy’s high cost and typical use in critical structural applications.
FAI
First Article Inspection
Complete chemical, mechanical, hardness, grain size, PMI, and dimensional verification on the first production run of each unique configuration per project order, released before batch production.

4.2 — EN 10204 / Documentation Requirements

Table 4.A — Material Certification for Inconel 718 Component Supply
CertificateContentEPC RequirementWhen Mandatory
2.1 / 2.2Declaration / non-specificNot acceptable for critical aerospace/HPHT supplyNever for aerospace or critical oil & gas HPHT equipment supply
3.1 (EN 10204)Heat-traceable chemical + mechanical test reportMandatory — all EPC supplyAll industrial and general oil & gas component supply
NACE MR0175 hardness compliance certificateProduction lot hardness test result vs. applicable limitMandatory — sour service HPHT supplyAll confirmed or potential sour-service 718 supply
3.2 (EN 10204)3.1 + TPI countersignCritical / owner-specified critical itemsAerospace-critical and safety-critical HPHT completion equipment

4.3 — Applications by Industry

Aerospace Gas Turbine Disks and Components Aerospace High-Strength Fasteners Oil & Gas HPHT Completion Equipment Downhole Tooling (Sour and Sweet Service) Rocket Engine Components Power Generation Turbine Components Cryogenic Equipment Fasteners Nuclear Reactor Components High-Pressure Valve and Wellhead Components Subsea High-Strength Bolting Turbocharger and Engine Components Precision Springs and Load-Bearing Components

Aerospace Gas Turbine Components

Inconel 718 (per AMS 5662/5663) for turbine disks, shafts, casings, and high-strength fasteners in aircraft and industrial gas turbine engines — the single largest-volume application category for 718 worldwide, leveraging the alloy’s exceptional strength retention at elevated temperature combined with good fatigue resistance for these highly cyclically loaded, safety-critical components.

Oil & Gas HPHT Completion Equipment

Inconel 718 components for high-pressure, high-temperature (HPHT) well completion equipment — packers, safety valves, and high-strength connectors — where the alloy’s exceptional strength at elevated temperature is essential, with the NACE MR0175 hardness constraint (Section 3.1) requiring careful heat treatment condition management wherever sour service is confirmed or possible.

High-Strength Fasteners and Load-Bearing Components

Inconel 718 studs, bolts, and precision mechanical components for critical aerospace, power generation, and industrial applications requiring the highest achievable strength combined with good corrosion resistance and elevated-temperature capability beyond what steel or titanium fasteners can provide.

4.4 — Export Packaging Specification

  • Bar and billet stock protected to prevent contamination and mechanical damage during transit, particularly important given the alloy’s high cost and typical use in critical aerospace and HPHT applications
  • Heat/lot number stamped or tagged on each item, cross-referenced to the accompanying material test certificate including the specific heat treatment condition, hardness test result, and grain size report
  • Components segregated from carbon steel and other dissimilar materials during packing to avoid surface contamination affecting the alloy’s corrosion performance
  • Documentation in a waterproof pocket: EN 10204 3.1/3.2 MTC, chemical composition report, mechanical properties report, hardness test report (NACE compliance where applicable), grain size report, PMI report, NDT reports, and packing list with form/condition/size breakdown per item
  • ISPM-15 timber or export cartons for international shipment, with country of origin and HS tariff code documentation matched to the nickel superalloy product category

Ready to source Inconel 718 bar or fasteners for your project?
Submit your form, condition, size, and quantity to RR Hydraulic for a complete, certified commercial offer.