Hastelloy vs. Inconel: A Comprehensive Comparison

Shanghai Lion Metal Co., Ltd. Nickel-based Alloy Division

Hastelloy and Inconel are two prominent families of nickel-based superalloys known for their exceptional corrosion resistance, high-temperature strength, and versatility in various demanding applications across industries. Engineers and material specialists often face the decision of choosing between these alloys based on specific performance requirements. This article explores the differences and similarities between Hastelloy and Inconel, focusing on their properties, chemical compositions, applications, and suitability for different environments.

Chemical Composition

The chemical compositions of Hastelloy and Inconel alloys are tailored to achieve specific mechanical, thermal, and corrosion-resistant properties. Below are the compositions for three grades from each family arranged for comparison:

Hastelloy Alloys

GradeChemical Composition
Hastelloy C-276Ni: Bal., Cr: 14.5-16.5%, Mo: 15-17%, Fe: 4-7%, W: 3-4.5%, Co: 2.5%, Mn: 1.0%, V: 0.35%
Hastelloy C-22Ni: Bal., Cr: 20-22.5%, Mo: 12.5-14.5%, Fe: 2-6%, W: 2.5-3.5%, C: 0.015%, Co: 2.5%
Hastelloy XNi: Bal., Cr: 20.5-23%, Mo: 8-10%, Fe: 17-20%, Co: 0.5-2.5%, W: 0.2-1.0%, C: 0.05-0.15%

Inconel Alloys

GradeChemical Composition
Inconel 600Ni: 72%, Cr: 14-17%, Fe: 6-10%, Cu: 0.5%, Mn: 1%, Si: 0.5%
Inconel 625Ni: 58%, Cr: 20-23%, Mo: 8-10%, Nb+Ta: 3.15-4.15%, Fe: 5%, Al: 0.4%, Ti: 0.4%, C: 0.1%
Inconel 718Ni: 52.5%, Cr: 19%, Mo: 3%, Nb+Ta: 5.1%, Ti: 0.9%, Al: 5.5%, C: 0.08%

Properties Comparison

The properties of Hastelloy and Inconel alloys determine their performance in various environments, including high temperatures, corrosive atmospheres, and mechanical stress. Here’s a comparison of their key properties:

PropertyHastelloy C-276Hastelloy C-22Hastelloy X
Temperature ResistanceUp to 1093°C (2000°F)Up to 1093°C (2000°F)Up to 1204°C (2200°F)
Corrosion ResistanceExcellentExcellentGood
Mechanical StrengthHighHighHigh
WeldabilityGoodGoodGood
FabricabilityGoodGoodGood
Magnetic PropertiesNon-magneticNon-magneticNon-magnetic
ApplicationsChemical processing, aerospaceChemical processing, aerospaceGas turbine engines, industrial heating
PropertyInconel 600Inconel 625Inconel 718
Temperature ResistanceUp to 1177°C (2150°F)Up to 980°C (1800°F)Up to 704°C (1300°F)
Corrosion ResistanceExcellentExcellentExcellent
Mechanical StrengthGoodHighHigh
WeldabilityExcellentGoodGood
FabricabilityGoodGoodGood
Magnetic PropertiesNon-magneticNon-magneticNon-magnetic
ApplicationsChemical and food processingAerospace, marineAerospace, gas turbines

Detailed Analysis

Hastelloy Alloys

Hastelloy C-276:

  • Chemical Composition: Primarily nickel with significant chromium, molybdenum, and tungsten.
  • Properties: Exceptional resistance to oxidizing and reducing environments, ideal for aggressive chemical processing.
  • Applications: Widely used in chemical reactors, pollution control equipment, and sour gas wells.

Hastelloy C-22:

  • Chemical Composition: Higher chromium and molybdenum content than C-276, with enhanced resistance to pitting and crevice corrosion.
  • Properties: Superior resistance to both oxidizing and reducing acids, suitable for pharmaceutical and chemical processing applications.
  • Applications: Used in pharmaceutical manufacturing, chlorination systems, and pulp and paper production.

Hastelloy X:

  • Chemical Composition: High nickel content with significant additions of chromium, molybdenum, iron, cobalt, and tungsten.
  • Properties: Excellent oxidation resistance at elevated temperatures, suitable for gas turbine applications and industrial furnace components.
  • Applications: Aerospace components, industrial furnace liners, and gas turbine engine seals.

Inconel Alloys

Inconel 600:

  • Chemical Composition: Predominantly nickel with substantial chromium and iron content.
  • Properties: Excellent resistance to oxidation, corrosion, and stress-corrosion cracking at high temperatures.
  • Applications: Used in furnace components, chemical plant equipment, and heat treating fixtures.

Inconel 625:

  • Chemical Composition: Significant nickel content with additions of chromium, molybdenum, niobium, and tantalum.
  • Properties: Superior fatigue strength, excellent weldability, and resistance to a wide range of corrosive environments.
  • Applications: Aerospace applications, marine environments, and chemical processing industries.

Inconel 718:

  • Chemical Composition: High nickel and chromium content with additions of molybdenum, niobium, titanium, and aluminum.
  • Properties: Exceptional strength and toughness at high temperatures, excellent creep-rupture strength.
  • Applications: Gas turbine engines, aerospace components, and cryogenic storage tanks.

Conclusion

Hastelloy and Inconel alloys represent two leading families of nickel-based superalloys designed to withstand extreme environments and demanding applications. The choice between Hastelloy and Inconel depends on specific requirements such as temperature resistance, corrosion resistance, mechanical strength, and weldability. Hastelloy alloys, including C-276, C-22, and X, excel in corrosive chemical environments and high-temperature applications. Inconel alloys, such as 600, 625, and 718, are preferred for their strength, oxidation resistance, and reliability in aerospace and marine applications.

By understanding the distinct properties and applications of each alloy, engineers and materials specialists can make informed decisions to optimize performance, durability, and cost-effectiveness in various industrial sectors.


This comprehensive comparison highlights the strengths and applications of Hastelloy and Inconel alloys, providing valuable insights for selecting the most suitable alloy based on specific engineering requirements and environmental conditions.