Inconel 625 vs. Inconel 600: A Comprehensive Comparison

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

Inconel 625 and Inconel 600 are both nickel-chromium alloys known for their excellent corrosion resistance and high-temperature performance. However, they possess distinct properties and applications, making each suitable for different environments. Below is a detailed comparison of these two alloys focusing on their chemical composition, mechanical properties, high-temperature performance, corrosion resistance, weldability, and applications.


Chemical Composition

The chemical composition of each alloy significantly affects its performance characteristics.

Table 1: Chemical Composition

ElementInconel 625Inconel 600
Nickel (Ni)58-63%72-76%
Chromium (Cr)20-23%14-17%
Iron (Fe)BalanceBalance
Molybdenum (Mo)8-10%None
Niobium (Nb)3.0-4.0%None
Carbon (C)≤0.10%≤0.15%

Mechanical Properties

Understanding the mechanical properties of each alloy is crucial for evaluating performance under stress and elevated temperatures.

Table 2: Mechanical Properties

PropertyInconel 625Inconel 600
Yield Strength (MPa)280 – 345200 – 310
Ultimate Tensile Strength (MPa)700 – 1,200450 – 700
Elongation (%)30% (min)30% (min)
Hardness (Rockwell B)40-5080-100

High-Temperature Performance

Both alloys are designed for high-temperature applications, but their thermal performance characteristics differ.

Table 3: High-Temperature Performance

FeatureInconel 625Inconel 600
Service TemperatureUp to 1,800°F (982°C)Up to 1,900°F (1,038°C)
Oxidation ResistanceExcellentGood
Creep ResistanceVery goodModerate

Corrosion Resistance

Corrosion resistance is fundamental in determining the suitability of these alloys for various environments.

Table 4: Corrosion Resistance

Corrosion TypeInconel 625Inconel 600
General CorrosionExcellentVery good
Pitting CorrosionExcellentGood
Stress Corrosion CrackingExcellentModerate
Acid ResistanceGood in moderate acidic environmentsVery good in non-oxidizing acids

Weldability

Weldability is an important consideration when selecting alloys for fabrication and repair.

Table 5: Weldability Comparison

FeatureInconel 625Inconel 600
General WeldabilityGood; often requires preheatGood; usually does not require preheating
Post-Weld Heat TreatmentGenerally not requiredGenerally not required
Filler MaterialERNiCrMo-3ERNi 600

Applications

The specific applications for each alloy can significantly impact the choice of material in different industries.

Table 6: Typical Applications

Application AreaInconel 625Inconel 600
Chemical ProcessingEquipment in harsh environmentsHeat exchangers, furnace components
AerospaceTurbine components, exhaust systemsLess common in aerospace applications
Oil and Gas IndustryDownhole tubing, valvesOil refining and transport
Marine ApplicationsMarine components, offshore applicationsLess commonly used in marine environments
Power GenerationGas turbine componentsBoiler tubes, heat exchangers

Summary of Differences

FeatureInconel 625Inconel 600
Nickel Content58-63%72-76%
Chromium Content20-23%14-17%
Molybdenum Content8-10%None
Temperature ResistanceUp to 1,800°F (982°C)Up to 1,900°F (1,038°C)
ApplicationsPreferred for chemical and aerospace applicationsSuited for heat exchangers and oil refining

Conclusion

Inconel 625 and Inconel 600 both offer excellent corrosion resistance and high-temperature capabilities, but they are suited for different applications based on their properties:

  • Inconel 625 excels in harsh environments, particularly in chemical processing and aerospace applications, with outstanding oxidation resistance and high-temperature strength.
  • Inconel 600 is preferred for applications requiring high-temperature stability and resistance to corrosive environments, especially in heat exchangers and oil refining.

Choosing the appropriate alloy depends on the specific requirements of the application, including environmental conditions and mechanical stresses. If you have further questions or need assistance, feel free to ask!