Inconel 400 Spring

Inconel x-750 Springs

Inconel x-750 Spring Supplier, Exportet in Mumbai

Spring Inconel x-750 Dealer in India, Largest Exporter Spring inconel x-750.

Inconel Flanges Stockist, Exporter, Supplier

Neeka Tubes offers a produces high-quality springs, with precision tolerances made from Inconel x-750 alloy wire and bar diameters up to 2.50” (65 mm). Our team of engineers can assist you in designing your complex corrosive and low and high-temperature spring applications. Professionally crafted along with our rigid testing standards provides the springs for your toughest applications.

Inconel x-750 is an age-hardenable Nickel-Chromium-Columbium (Niobium)-Molybdenum alloy with excellent corrosion resistant properties. It is a high strength alloy that is compatible in both high and low-temperature environments (-423 F – 1300 F) (253 C – 704 C). It exhibits excellent fatigue, creep, and rupture strength making it an ideal alloy for fabricating springs. It is a superior material choice to Inconel X750 at higher temperatures when material strength is a factor.

The alloy retains 75% of its tensile strength up to 1300 F (704 C). Inconel x-750 remains ductile in cryogenic environments and is suitable for low-temperature applications like compressed liquid natural gas or CO2 processing. It retains 85% of its ductility at temperatures down to -400 F (-240 C). x-750 also performs better than Nimonic 90 at cryogenic temperatures. The material performs well in sour gas environments although there are other nickel alloys such as Inconel 625 and Inconel 725 that perform even better.

Inconel x-750 is also resistant to hydrogen embrittlement and stress corrosion cracking with HRc values as high as 40 when in the solution annealed and aged condition. To meet these requirements the NACE MR1075 specifications for heat treatment are followed. The material is typically solution annealed at 1850-1900 F (1010 – 1040 C) and precipitation hardened at 1450 F (780 C) up to 8 hrs.

To meet high fatigue and material strength, heat treatment is conducted by solution annealing at 1700 – 1800 F (925 – 980 C) followed by a rapid cool and precipitation hardening at 1325 F (720 C) for 8 hrs. and furnace cooling to 1150 F (620 C) for 18 hours.

Technical Specification Inconel X750
Nominal Composition

Ni: 70.0 min
Cr: 14.0 - 17.0


0.299 lb./in3, (8.28 g/cm3)

Modulus of Elasticity (E)

At 70°F (20°C): 31.0 x 106 psi
At 1000°F(538°C): 26.7 x 10psi 

Modulus of Rigidity (G)

At 70°F(20°C): 12.0x106 psi

Coefficient of Expansion

7.8 µin/in.-°F (70°F to 1000°F)
14.5 µm/m-°C (20°C to 538°C)

Electrical Resistivity

20.1 µΩ.in, (122 µΩ.cm)

Thermal Conductivity

83 Btu-in/ft2hr-°F, (12.0 W/m-K)

Min Size

0.004 in (0.100 mm)

Max Temp

704oC (1300oF)

Uses on Inconel X-750 springs

It is used for springs operating at elevated temperatures

Inconel x-750 is available in a variety of conditions from annealed to spring temper. The most common wires are No. 1 temper and Spring Temper wire for spring making. No 1 temper tensile range is 105 -135 Ksi whereas Spring Temper grade is typically utilized for higher stressed applications with a material tensile capacity as high as 220 Ksi. It should be noted the only way to achieve a higher tensile strength with Inconel x-750 is to cold work the material by reducing it from a larger diameter to its final size. Unlike a precipitation hardening alloys like Inconel X750 age-hardening, the material is not possible. Typically, the material is stress relieved for 1 hr. at 850 – 900 F (450 – 480 C) for 1 hr. after coiling.

Inconel springs are useful in applications where other springs may fail. SMSC produces industry-grade Inconel springs that are ideal for extreme environments, and mission-critical applications. These industrial springs are made from Inconel X-750 alloy. We source our materials from reputed dealers, which allows us to provide springs in the unmatched quality.

As per client requirement And as per drawing provided by the clients

Looking for a quality and affordable Services for your next project?