Inconel 625 vs 718: What’s the Difference?

When it comes to high-performance nickel-based alloys, Inconel 625 and Inconel 718 are among the most popular choices in industries such as aerospace, marine, chemical processing, and power generation. Both alloys are known for their exceptional strength, corrosion resistance, and ability to withstand extreme environments. However, despite their similarities, they have distinct properties that make each better suited to specific applications. In this article, we explore Inconel 625 vs 718: what’s the difference? — helping you make informed decisions when selecting materials for your next project.

Understanding Inconel Alloys

Inconel is a trademarked family of nickel-chromium-based superalloys designed for high-strength, high-temperature, and corrosive applications. These alloys are commonly used in environments where ordinary steels and other metals would fail due to heat, oxidation, or chemical attack.

Both Inconel 625 and 718 are precipitation-hardened alloys, but they differ in their compositions, mechanical properties, and optimal uses. Suppliers like sasaalloy provide these alloys to exacting standards, ensuring reliable performance in the most demanding industries.

Chemical Composition: The Foundation of Difference

Inconel 625

Inconel 625 is primarily composed of:

• Nickel (Ni): ~58% minimum

• Chromium (Cr): ~20-23%

• Molybdenum (Mo): ~8-10%

• Niobium (Nb): ~3-4%

• Small amounts of iron, manganese, silicon, aluminum, and titanium

The high molybdenum and niobium content enhances Inconel 625’s corrosion resistance and strength without the need for precipitation hardening.

Inconel 718

Inconel 718 contains:

• Nickel (Ni): ~50-55%

• Chromium (Cr): ~17-21%

• Iron (Fe): ~17%

• Niobium (Nb): ~4.75-5.5%

• Molybdenum (Mo): ~2.8-3.3%

• Titanium and aluminum: ~0.7-1.15% combined

What sets Inconel 718 apart is its ability to be precipitation hardened through the formation of gamma prime (γ’) and gamma double prime (γ”) phases, significantly increasing its strength.

➡ Summary: Inconel 625 relies on solid-solution strengthening, while Inconel 718 gains strength from precipitation hardening.

Mechanical Properties: Strength and Performance

Tensile and Yield Strength

• Inconel 625: Tensile strength ~827 MPa (120 ksi), yield strength ~414 MPa (60 ksi)

• Inconel 718: Tensile strength ~1379 MPa (200 ksi), yield strength ~1034 MPa (150 ksi)

➡ Inconel 718 offers significantly higher tensile and yield strength due to its precipitation-hardened microstructure.

Temperature Range

• Inconel 625 performs well up to about 982°C (1800°F) while retaining excellent corrosion resistance.

• Inconel 718 maintains high strength up to around 704°C (1300°F). Above this, its strength advantage diminishes as the precipitates lose effectiveness.

➡ For high-strength applications below 704°C, Inconel 718 is superior; for higher temperature corrosion resistance, Inconel 625 has the edge.

Fatigue and Creep Resistance

• Inconel 718 is renowned for its excellent fatigue strength and creep resistance at intermediate temperatures.

• Inconel 625 provides good fatigue resistance but is better valued for its corrosion resistance and weldability.

Corrosion Resistance

One of Inconel 625’s greatest strengths is its superior corrosion resistance:

• Excellent resistance to pitting, crevice corrosion, and stress-corrosion cracking in chloride environments.

• Exceptional resistance to seawater and chemical media like acids.

Inconel 718 also offers good corrosion resistance but is not as resistant as 625 in highly corrosive or marine environments.

➡ Summary: When corrosion resistance is the top priority, Inconel 625 is the preferred alloy.

Weldability and Fabrication

• Inconel 625 is known for its outstanding weldability. It can be welded without concern for post-weld cracking, making it ideal for complex fabrications and repairs.

• Inconel 718 requires precise heat treatment and careful control during welding to prevent cracking or degradation of properties. Post-weld heat treatment is typically required to restore properties.

➡ Summary: Inconel 625 is generally easier to weld and fabricate, offering greater flexibility in manufacturing and repair.

Applications: Where Each Alloy Shines

Inconel 625 Applications

• Marine hardware and seawater components

• Chemical processing equipment handling aggressive media

• Heat exchangers and condenser tubing

• Flue gas scrubbers

• Aerospace ducting systems

• Flexible metal hose and bellows

Inconel 718 Applications

• Aircraft engine components (discs, fasteners, casings)

• Gas turbines

• Rocket motors and nuclear fuel element spacers

• High-strength fasteners and bolts

• Downhole tools in oil and gas industries

➡ Summary: Inconel 718 is chosen for high-strength, high-fatigue applications at moderate temperatures, while Inconel 625 is ideal where corrosion resistance and ease of fabrication are critical.

Cost Considerations

Inconel 718 typically costs more to produce because of:

• Additional alloying elements

• Complex heat treatment processes

• More challenging fabrication requirements

In contrast, Inconel 625’s simpler processing often makes it a more cost-effective choice where ultra-high strength is not required.

➡ Summary: If strength is paramount, Inconel 718 justifies its higher cost. For corrosion resistance and cost efficiency, Inconel 625 offers better value.

Selecting Between Inconel 625 and 718

When deciding between these two alloys, consider:

1. Operating conditions: What temperatures, stresses, and corrosive agents will the material face?

2. Mechanical demands: Is high strength or fatigue resistance essential?

3. Fabrication requirements: Will the part require complex forming or welding?

4. Service environment: Will the component be exposed to aggressive chemicals or seawater?

5. Budget constraints: Can the higher cost of Inconel 718 be justified by the performance benefits?

Consulting with experts like sasaalloy ensures you select the most appropriate material for your specific needs, avoiding costly over-specification while achieving reliable performance.

The Role of sasaalloy in Nickel Alloy Solutions

At sasaalloy, we supply Inconel 625, Inconel 718, and other high-performance alloys manufactured to stringent international standards. Our team works with customers to specify, source, and supply the right material for each application — balancing technical requirements with cost, availability, and manufacturing considerations.

We provide complete documentation, traceability, and technical support, helping clients in aerospace, marine, energy, and chemical industries meet their toughest challenges with confidence.

Conclusion

Inconel 625 vs 718: what’s the difference? The answer lies in their fundamental material properties and intended applications:

• Inconel 718: Superior strength, fatigue resistance, and creep resistance at moderate temperatures. Ideal for high-stress aerospace, turbine, and power generation components.

• Inconel 625: Outstanding corrosion resistance, ease of welding, and excellent performance at elevated temperatures. Perfect for marine, chemical, and high-corrosion environments.

Both alloys represent the pinnacle of nickel-based superalloy technology, but the right choice depends on your specific project needs. For expert guidance and premium alloy solutions, trust sasaalloy to help power your success.

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