Inconel is a family of austenitic nickel-chromium-based superalloys.

Inconel alloys are oxidation-corrosion-resistant materials well suited for service in extreme environments subjected to pressure and heat. When heated, Inconel forms a thick, stable, passivating oxide layer protecting the surface from further attack. Inconel retains strength over a wide temperature range, attractive for high temperature applications where aluminum and steel would succumb to creep as a result of thermally induced crystal vacancies. Inconel’s high temperature strength is developed by solid solution strengthening or precipitation hardening, depending on the alloy.

Inconel alloys are typically used in high temperature applications. Common trade names for Inconel Alloy 625 include: Inconel 625, Chronin 625, Altemp 625, Haynes 625, Nickelvac 625 and Nicrofer 6020.[4] Inconel Alloy 600 include: NA14, N06600, BS3076, 2.4816, NCr15Fe (FR), NiCr15Fe (EU) and NiCr15Fe8 (DE). Inconel 718 include: Nicrofer 5219, Superimphy 718, Haynes 718, Pyromet 718, Supermet 718, and Udimet 718.

Contents

  • History
  • Composition
  • Properties
  • Machining
  • Joining
  • Uses
  • Inconel alloys
  • References

The Inconel family of alloys was first developed in the 1940s by research teams at Wiggin Alloys (Hereford, England), which has since been acquired by Special Metals Corporation,  in support of the development of the Whittle jet engine.

In June 2018, SpaceX CEO Elon Musk announced completion of work on a new Inconel superalloy called SX 300 developed for high-temperature, high-pressure, highly-oxidative environments in a rocket engine.

Inconel alloys vary widely in their compositions, but all are predominantly nickel, with chromium as the second element.

InconelElement, proportion by mass (%)
NiCrFeMoNb & TaCoMnCuAlTiSiCSPB
600[9]≥72.0[a]14.0–17.06.0–10.0N/A≤1.0≤0.5≤0.5≤0.15≤0.015
617[10]44.2–61.020.0–24.0≤3.08.0–10.010.0–15.0≤0.5≤0.50.8–1.5≤0.6≤0.50.05–0.15≤0.015≤0.015≤0.006
625[11]≥58.020.0–23.0≤5.08.0–10.03.15–4.15≤1.0≤0.5≤0.4≤0.4≤0.5≤0.1≤0.015≤0.015
690[12]≥5827–317–11≤0.50≤0.50≤0.50≤0.05≤0.015
Nuclear grade 690[12]≥5828–317–11≤0.10≤0.50≤0.50≤0.50≤0.04≤0.015
718[2]50.0–55.017.0–21.0Remainder2.8–3.34.75–5.5≤1.0≤0.35≤0.30.2–0.80.65–1.15≤0.35≤0.08≤0.015≤0.015≤0.006
X-750[13]≥70.014.0–17.05.0–9.00.7–1.2≤1.0≤1.0≤0.50.4–1.02.25–2.75≤0.5≤0.08≤0.01
  1. ^ Includes cobalt

Inconel alloys are oxidation- and corrosion-resistant materials well suited for service in extreme environments subjected to high pressure and kinetic energy. When heated, Inconel forms a thick and stable passivating oxide layer protecting the surface from further attack. Inconel retains strength over a wide temperature range, attractive for high-temperature applications where aluminium and steel would succumb to creep as a result of thermally induced crystal vacancies (see Arrhenius equation). Inconel’s high temperature strength is developed by solid solution strengthening or precipitation strengthening, depending on the alloy. In age-hardening or precipitation-strengthening varieties, small amounts of niobium combine with nickel to form the intermetallic compound Ni3Nb or gamma double prime (γ″). Gamma prime forms small cubic crystals that inhibit slip and creep effectively at elevated temperatures. The formation of gamma-prime crystals increases over time, especially after three hours of a heat exposure of 850 °C, and continues to grow after 72 hours of exposure.

Inconel is a difficult metal to shape and machine using traditional cold forming techniques due to rapid work hardening. After the first machining pass, work hardening tends to plastically deform either the workpiece or the tool on subsequent passes. For this reason, age-hardened Inconels such as 718 are machined using an aggressive but slow cut with a hard tool, minimizing the number of passes required. Alternatively, the majority of the machining can be performed with the workpiece in a solutionized form, with only the final steps being performed after age hardening.

External threads are machined using a lathe to “single-point” the threads or by rolling the threads in the solution treated condition (for hardenable alloys) using a screw machine. Inconel 718 can also be roll-threaded after full aging by using induction heat to 1,300 °F (700 °C) without increasing the grain size. Holes with internal threads are made by threadmilling. Internal threads can also be formed using a sinker electrical discharge machining (EDM).

Cutting of a plate is often done with a waterjet cutter. New whisker-reinforced ceramic cutters are also used to machine nickel alloys. They remove material at a rate typically eight times faster than cemented carbide cutters. Apart from these methods, Inconel parts can also be manufactured by selective laser melting.

More often than machining, water-jet or laser, grinding is a preferred and economical method for forming Nickel alloy components to shape and finish. Due to the hardness of the abrasives used, the grinding wheels are not as affected by the material work hardening and remain sharp and durable.

Welding of some Inconel alloys (especially the gamma prime precipitation hardened family; e.g., Waspalloy and X-750) can be difficult due to cracking and microstructural segregation of alloying elements in the heat-affected zone. However, several alloys such as 625 and 718 have been designed to overcome these problems. The most common welding methods are gas tungsten arc welding and electron-beam welding.

Inconel is often encountered in extreme environments. It is common in gas turbine blades, seals, and combustors, as well as turbocharger rotors and seals, electric submersible well pump motor shafts, high temperature fasteners, chemical processing and pressure vessels, heat exchanger tubing, steam generators and core components in nuclear pressurized water reactors, natural gas processing with contaminants such as H2S and CO2, firearm sound suppressor blast baffles, and Formula One, NASCAR, NHRA, and APR, LLC exhaust systems. It is also used in the turbo system of the 3rd generation Mazda RX7, and the exhaust systems of high powered rotary engined Norton motorcycles where exhaust temperatures reach more than 1,000 °C. Inconel is increasingly used in the boilers of waste incinerators. The Joint European Torus and DIII-D tokamaks’ vacuum vessels are made of Inconel.  Inconel 718 is commonly used for cryogenic storage tanks, downhole shafts and wellhead parts.

Several applications of inconel in aerospace include:

  • The Space Shuttle used four Inconel studs to secure the solid rocket boosters to the launch platform, eight total studs supported the entire weight of the ready to fly Shuttle system. Eight frangible nuts are encased on the outside of the solid rocket boosters, at launch explosives separated the nuts releasing the Shuttle from its launch platform.[citation needed]
  • North American Aviation constructed the skin of the North American X-15 Rocket-powered aircraft out of an Inconel alloy known as “Inconel X”.
  • Rocketdyne used Inconel X-750 for the thrust chamber of the F-1 rocket engine used in the first stage of the Saturn V booster.
  • SpaceX uses inconel in the engine manifold of their Merlin rocket engine which powers the Falcon 9 launch vehicle.
  • In a first for 3D printing, the SpaceX SuperDraco rocket engine that provides launch escape system and propulsive-landing thrust for the Dragon V2 crew-carrying space capsule is fully printed. In particular, the engine combustion chamber is printed of Inconel using a process of direct metal laser sintering, and operates at very high temperature and a chamber pressure of 6,900 kilopascals (1,000 psi).

Inconel is also used in the automotive industry:

  • Tesla is now using Inconel in place of steel to upgrade the main battery pack contactor in its Model S so that it remains springy under the heat of heavy current. Tesla claims that this allows upgraded vehicles to safely increase the maximum pack output from 1300 to 1500 amperes, allowing for an increase in power output (acceleration) Tesla refers to this as “Ludicrous Mode”.
  • Ford Motor Company is using Inconel to make the turbine wheel in the turbocharger of its EcoBlue diesel engines introduced in 2016.
  • The exhaust valves on NHRA Top Fuel and Funny Car drag racing engines are made of Inconel.[citation needed] Inconel is also used in the manufacture of exhaust valves in high performance aftermarket turbo and Supercharged Mazda Miata engine builds (see Flyin’ Miata).
  • BMW has since used Inconel in the exhaust manifold of its high performance luxury car, the BMW M5 E34 with the iconic S38 engine, withstanding higher temperatures and reducing backpressure.
  • Jaguar Cars has fit, in their Jaguar F-Type SVR high performance sports car, a new lightweight Inconel titanium exhaust system as standard which withstands higher peak temperatures, reduces backpressure and eliminates 16 kg (35 lb) of mass from the vehicle.

Rolled Inconel was frequently used as the recording medium by engraving in black box recorders on aircraft.

Alternatives to the use of Inconel in chemical applications such as scrubbers, columns, reactors, and pipes are Hastelloy, perfluoroalkoxy (PFA) lined carbon steel or fiber reinforced plastic.

Alloys of inconel include:

  • Inconel 600: Solid solution strengthened
  • Inconel 617: Solid solution strengthened, high-temperature strength, corrosion and oxidation resistant, high workability and weldability
  • Inconel 625: Acid resistant, good weldability. The LCF version is typically used in bellows.
  • Inconel 690: Low cobalt content for nuclear applications, and low resistivity
  • Inconel 713C: Precipitation hardenable nickel-chromium base cast alloy
  • Inconel 718: Gamma double prime strengthened with good weldability
  • Inconel 751: Increased aluminium content for improved rupture strength in the 1600 °F range
  • Inconel 792: Increased aluminium content for improved high temperature corrosion properties, used especially in gas turbines
  • Alloy 939: Gamma prime strengthened to increase weldability.
  • Alloy 188: Readily fabricated for commercial gas turbine and aerospace applications.
  • Alloy X-750: Commonly used for gas turbine components, including blades, seals and rotors.
  • Alloy 230: Alloy 230 Plate & Sheet mainly used by the power, aerospace, chemical processing and industrial heating industries, Aerospace Materials.
  • Alloy 907
  • Alloy 909
  • Alloy 706
  • Alloy 617: A solid-solution, nickel-chromium-cobalt-molydenum alloy.
  • Inconel 939: Gamma prime strengthened to increase weldability
  • Inconel 925: Inconel 925 is a nonstabilized austenitic stainless steel with low carbon content.[41]

In age hardening or precipitation strengthening varieties, alloying additions of aluminum and titanium combine with nickel to form the intermetallic compound Ni3(Ti,Al) or gamma prime (γ′). Gamma prime forms small cubic crystals that inhibit slip and creep effectively at elevated temperatures.

How Inconel is made?
Inconel 601 is a nickel-chromium alloy that has additions of aluminum. These additions increase its resistance to oxidation and various forms of corrosion. This has made Inconel 601 a common material in heat treating equipment, furnaces, and gas-turbine components.

What is Inconel used For?
INCONEL® nickel-chromium alloy 625 (UNS N06625/W.Nr. 2.4856) is used for its high strength, excellent fabricability (including joining), and out- standing corrosion resistance. Service temperatures range from cryogenic to 1800°F (982°C).

Can Inconel be welded?
Inconel filler metals produce a weld pool with a “skin” on the surface that canappear dirty to welders accustomed to steel. This is normal for Inconel. Thesewelds should be strong and highly resistant to corrosion when they are properly made. Weld Inconel with the TIG technique.
What is a Incoloy?
They are mostly nickel-based, and designed for excellent corrosion resistance as well as strength at high temperatures; there are specific alloys for resistance to particular chemical attacks (e.g. alloy 020 is designed to be resistant to sulphuric acid, DS to be used in heat-treating furnaces with reactive atmospheres …
What is Hastelloy material?
Hastelloy C-276 Welding Material. Alloy C276 welding products are used as matching composition filler material for welding C276 alloy wrought and cast products, for dissimilar welding applications including other nickel-chromium-molybdenum alloys and stainless steels, and for weld overlay or cladding of steels.
Is Hastelloy better than stainless steel?
Being all corrosion resistant alloys cost is the most important factor here. SS 316 L is an iron alloy, Hastelloy a nickel alloy and Monel are nickel-copper alloys. Nickel is the most expensive, then copper and finally steel. Typically, unless it is inevitable, you would always use the cheapest, SS 316L.
Monel is a group of nickel alloys, primarily composed of nickel (up to 67%) and copper, with small amounts of iron, manganese, carbon, and silicon. Stronger than pure nickel, Monel alloys are resistant to corrosion by many agents, including rapidly flowing seawater. They can be fabricated readily by hot- and cold-working, machining, and welding.

Monel was created by Robert Crooks Stanley, who worked for the International Nickel Company (INCO) in 1901. Monel alloy 400 is a binary alloy of the same proportions of nickel and copper as is found naturally in the nickel ore from the Sudbury (Ontario) mines and is therefore considered a puritan alloy. Monel was named after company president Ambrose Monell, and patented in 1906. One L was dropped, because family names were not allowed as trademarks at that time. The name is now a trademark of Special Metals Corporation.

It is a very expensive alloy, with cost ranging from 5 to 10 times the cost of copper and nickel, hence its use is limited to those applications where it cannot be replaced with cheaper alternatives. Compared to carbon steel, piping in Monel is more than 3 times as expensive.

We can offer ex-stock supply of most of the standard size Monel Alloy 400 alloy pipes and Monel Alloy 400 tubes, Monel K500 Round Bars, Inconel Alloy 600, Inconel 600 Pipes, UNS N06625. Custom size (thickness x OD) Monel Alloy 400 pipes can be offered with short delivery times to meet the most demanding requirements of our customers. Inconel 600 Pipes, Inconel 600 Tubes, Alloy 600 Werkstoff Nr.2.4816 Seamless Pipes & Tubes, Inconel Alloy 600 Welded Pipes Supplier.