NK4730 Hastelloy X Tube/Pipe

Hastelloy X Tube/Pipe Description

Hastelloy X is a nickel base alloy with high strength and good oxidation resistance up to 1204℃. Hastelloy X Tube/Pipe shows excellent ability to be used in forming or welding. Hastelloy X not only has high strength, low magnetic permeability, and good corrosion resistance but also shows good resistance to chloride stress-corrosion cracking, carburization, and stress-corrosion cracking in petrochemical applications.

Hastelloy X Tube/Pipe Specification

Chemical Composition (%)

Hastelloy X Tube/Pipe Applications

Hastelloy X Tube/Pipe is often used in industrial furnaces and chemical equipment for retorts, catalysts support grids or flash drier components. It can also be used in gas turbine engine components such as transition ducts, combustor cans and flam holders.

Hastelloy X Tube/Pipe Packaging

Our Hastelloy X Tube/Pipe is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

Hastelloy X Tube/Pipe FAQs

Q1: What temperatures can Hastelloy X Tube/Pipe withstand?

Hastelloy X can maintain its mechanical properties and corrosion resistance at temperatures up to 1200°C (2200°F). This makes it suitable for high-temperature environments in industries such as aerospace, power generation, and chemical processing.

Q2: What are the corrosion-resistant properties of Hastelloy X?

Hastelloy X is resistant to both oxidizing and reducing atmospheres. It performs well in high-temperature environments where exposure to corrosive gases, carburization, or oxidation can occur. This resistance makes it suitable for chemical plants, gas turbines, and industrial heating systems.

Q3: How does Hastelloy X Tube/Pipe perform in high-stress environments?

Hastelloy X has excellent creep resistance and maintains its mechanical strength even at high temperatures, making it ideal for use in applications where components are exposed to high stress and heat for extended periods, such as in turbine engines and chemical reactors.