ENiCrFe-2 Alloy 4.0mm 2kg

R1,309.77

Pricing per kg, sold in 2kg tubes

Description

The ENiCrFe-2 Alloy Wire 4.0mm 2kg is a reliable choice for welding applications that demand corrosion resistance and strength at high temperatures. Known as Inconel 82, this nickel-chromium-iron wire performs exceptionally well when joining dissimilar metals, especially stainless steel to carbon steel. It’s engineered to deliver long-lasting performance in harsh industrial environments.

Thanks to its 4.0mm thickness, the wire penetrates deeply, making it ideal for welding thick materials and structural joints. The compact 2kg spool suits repair work, smaller fabrication jobs, and field-based maintenance where portability is important.

This ENiCrFe-2 Alloy Wire provides excellent crack resistance, even in areas subject to thermal cycling or corrosive gases. Consequently, it’s widely used in the chemical, petrochemical, power generation, and marine industries. Welders often rely on it for heat exchangers, pressure vessels, boiler tubes, and piping systems.

Moreover, the wire offers a stable arc, low spatter, and clean bead appearance. You can use it with TIG or MIG processes, paired with argon or argon-helium shielding gas for best results. Additionally, it allows for multi-pass welding without reducing mechanical strength.

Unlike carbon steel wires, ENiCrFe-2 creates a nickel-based weld deposit that remains ductile and corrosion-resistant at elevated temperatures. For that reason, it also works well for overlay welding and buffer layers on pressure equipment.

If you’re working in industries that require long-lasting, corrosion-resistant welds, this 4.0mm ENiCrFe-2 Alloy Wire is a dependable choice. It complies with AWS A5.14 ENiCrFe-2 standards and delivers consistent results under extreme conditions.

Explore our full range of nickel alloy wires to find the right wire for your job.

For expert welding advice, check out this Lincoln Electric guide on nickel alloys.



We Will Beat Any Written Quotation.

Contact Us Now for a Quotation

You cannot copy content of this page