Nickel 625 per AMS 5599
Nickel 625 per AMS 5599 is a nickel-chromium-molybdenum-niobium steel that is artistically built to possess utmost strength and resistance to corrosion even at higher temperatures. Niobium complements molybdenum effectively in order to enhance the strength of the steel without any heat treatment.
This alloy can resist pitting, corrosion, and stress corrosion cracking. It can offer superior tensile, creep, rupture, fatigue, and thermal fatigue properties. This alloy can particularly be used for aerospace and marine applications. The melting methods for Nickel 625 alloy are as follows: To produce Nickel 625 alloy as per the specifications defined in the AMS 5599 standard, double melting has been done either through the EF-AOD or VIM method, and then a secondary remelt will have to be done either through the VAR or ESR method.
Product Forms & Size Range
Fighter Jet Metals supplies Nickel 625 in multiple plates, and sheets, ensuring consistent high-quality material for aerospace, energy, and industrial applications.
Fighter Jet Metals supplies Nickel 625 per AMS 5599 in Plate form starting at 0.187″ Thickness up to 4.00″ Thick. Standard width and length of Sheet and Plate is 48.00″ Wide X 120.00″ Long but our stocked sizes may vary.
Fighter Jet Metals supplies Nickel 625 per AMS 5599 in Sheet starting at 0.010″ Thickness up to 0.160″ Thickness. Standard width and length of Sheet and Plate is 48.00″ Wide X 120.00″ Long but our stocked sizes may vary.
Where is Inconel 625 used?
- CHEMICAL PROCESSING
- JET ENGINE COMPONENTS
- FLARE STACKS
- ENGINE EXHAUST SYSTEMS
- SUBMARINE AUXILIARY PROPULSION MOTORS
- POLLUTION CONTROL EQUIPMENT
- NUCLEAR REACTORS
Specifications
SHEET & PLATE
States the specifications of Nickel 625 sheets and plates at various thicknesses. Also, describes the requirements for corrosion resistance, heat resistance, mechanical properties, and formability for components used in the aerospace industry, flares, exhaust systems, and chemical equipment. ..
BARS & FORGINGS
Includes Nickel 625 in bar, forgings, and rings, where its chemical composition, mechanical properties, and heat treating requirements are discussed with regard to its applicability in industries such as aerospace and chemical processing where superior strengths are required.
BOEING SPECIFICATIONS
Boeing specifications regarding Nickel 625 provide an overview of the application of this material in aircraft engine construction, exhaust systems, as well as other elements used in the structure, which are utilized at high temperatures. The specifications guarantee a perfect fit with Boeing’s aerospace products.
GULSTREAM SPECIFICATIONS
Outlines the specifications of the Nickel 625 material used in the Gulfstream aircraft parts, including the required material properties in areas of the engine where high temperatures exist.
HONEYWELL SPECIFICATIONS
Covers Nickel 625 used in Honeywell aerospace and industrial applications. Focuses on heat and corrosion resistance, durability, and long-term stability in extreme environments.
SAFRAN SPECIFICATIONS
Defines Safran’s standards for Nickel 625 used in aircraft engines and high-temperature structural parts, ensuring oxidation and corrosion resistance under sustained thermal loads.
AIRBUS SPECIFICATIONS
Outlines Airbus standards for Nickel 625 in aerospace manufacturing, emphasizing mechanical strength, heat tolerance, and resistance to chemical attack in critical engine and structural components.
TUBING SPECIFICATIONS
Specifies Nickel 625 tubing for use in industrial, chemical, and aerospace environments. It details specifications related to the size, mechanical, and corrosion properties, as well as fabrication of tubes, used in heat exchangers, propulsion systems, or exhaust ducts.
Certified Material for Critical Service
All Nickel 625 supplied by Fighter Jet Metals comes with full test reports, heat numbers, and traceability in compliance with AMS standards.
We can coordinate dual certification with related standards ensuring compatibility with aerospace and high-temperature industrial applications.
Our materials can also be integrated into multi-alloy packages, providing a complete solution for high-performance manufacturing environments.