High Temperature Corrosion Resistant Inconel Alloy Inconel 600 Strip For Industrial Aerospace

High Temperature Corrosion Resistant Inconel Alloy Inconel 600 Strip For Industrial Aerospace

Description

Inconel 600 strip delivers unmatched resistance to extreme heat (up to 1150°C), oxidation, and chloride stress corrosion cracking. Compliant with ASTM B168, EN 10095, and AMS 5540P. Ideal for chemical processing, nuclear reactors, and aerospace components.

Product Overview

Inconel 600 strip is a nickel-chromium-iron alloy engineered for exceptional performance in high-temperature and corrosive environments. Comprising 72% nickel (Ni), 14–17% chromium (Cr), and 6–10% iron (Fe), this alloy forms a protective chromium oxide (Cr₂O₃) layer under thermal stress, ensuring resistance to oxidation, sulfidation, and chloride-induced stress corrosion cracking (SCC). Its high nickel content provides stability in reducing conditions and alkaline solutions, while chromium enhances resistance to oxidizing media.

With a maximum operating temperature of 1150°C in oxidizing atmospheres and 700°C in reducing environments, Inconel 600 strip outperforms stainless steel in aggressive settings like chemical reactors, nuclear cooling systems, and aerospace engine components. The alloy’s mechanical robustness—550–725 MPa tensile strength and 30–35% elongation—enables seamless fabrication into precision parts for heat exchangers, furnace fixtures, and marine hardware. Compliant with ASTM B168, EN 10095, and SAE AMS 5540P, it meets stringent global standards for industries in Southeast Asia’s petrochemical plants, Europe’s aerospace sector, and North America’s nuclear facilities.

Technical Specifications

Chemical Composition

Mechanical Properties

Physical Parameters

Standards Compliance

• ASTM B168: Nickel-Chromium-Iron Alloy Plate/Sheet/Strip

• EN 10095: Heat-Resistant Steels and Alloys

• SAE AMS 5540P: Aerospace Material Specification

Applications

• Chemical Processing: Heat exchanger plates, reactor linings, and acid-handling equipment.

• Aerospace: Jet engine components, exhaust liners, and high-temperature fasteners.

• Nuclear Engineering: Reactor coolant systems, fuel assembly cladding, and radiation shielding.

• Heat Treatment: Furnace retorts, annealing trays, and carburizing baskets.

• Marine Engineering: Seawater valve components and offshore platform fittings.

FAQs

Q1: What is the maximum continuous service temperature for Inconel 600 strip?
A: 1150°C in oxidizing atmospheres. For reducing environments (e.g., hydrogen-rich), limit to 700°C to avoid embrittlement.

Q2: How does Inconel 600 compare to stainless steel in chloride environments?
A: Inconel 600 resists chloride SCC and pitting corrosion far better than 316L or 304 stainless steel, making it ideal for marine and chemical applications.

Q3: Is welding Inconel 600 strip feasible?
A: Yes. Use TIG or MIG welding with Inconel 82/182 filler wire. Ensure thorough cleaning to prevent contamination-induced cracking.