NEW HIGH STRENGTH SUPER MARTENSITIC AF913® PLUS
The latest evolution of high strength super martensitic stainless steels: a possible alternative to UNS S17400.
The latest evolution of high strength super martensitic stainless steels: a possible alternative to UNS S17400.
A new Ni-base superalloy: production-microstructure-properties correlation The new nickel-base super alloy AF955® (UNS N09955) was developed by Foroni S.p.A. in response to the industrial need for a material that preserves the excellent properties of the precipitation hardened nickel-based superalloys, while also providing adequate resistance to...
High Ductility Alloy AF955® (UNS N09955) for Enhanced Resistance to Hydrogen Embrittlement Alloy AF955® (UNS N09955) solution annealed and precipitation hardened to a condition of lower strength and higher ductility provides a much higher resistance to hydrogen embrittlement with respect to 955-120K and 955 –…
AF955® (UNS N09955) – A Ni-base alloy for the most demanding applications. Alloy AF955® (UNS N09955) is qualified by NACE MR0175/ISO 15156-3 and API 6ACRA for oil and gas applications. This alloy provides minimum yield strength as high as 140 ksi together with excellent ductility…
The High strength AF932N® alloy combines mechanical strength (over 965 MPa) with excellent corrosion resistance for a valid alternative to nonmagnetic steels when longer in service life is required. Download
Alloy AF932N® (UNS S31010) is the latest evolution of high nitrogen austenitic stainless steels. It contains nitrogen in the range 0.8-0.9 % and has minimum 48 Pitting Resistance Equivalent Number (PREN). This alloy is produced by air melting followed by AOD (Argon-Oxygen-Decarburization) refining in a…
As part of our ongoing investment plan, a new four-column open die hydraulic press is being installed to support the production of large sections and difficult to forge alloys.
The heat treating department has been upgraded with additional latest technology equipped batch-type furnaces. Strict temperature control in furnace working zones ensures superior heat treat response in both high and low temperature regimes.
TRIPLE MELTING AOD + VIM + VAR PROCESS FOR SUPERALLOY PRODUCTION Triple melting AOD + VIM + VAR process for super alloy production consisting of the following plant and operating sequence: Charge melting by electric arc furnace followed by AOD (Argon Oxygen Decarburization) refining and…
After our successful introduction of alloy AF935® (UNS N09935), continuous alloy development has resulted in a new precipitation hardened alloy intended to meet and exceed the most stringent requirements of the latest oil and gas material standards. The new alloy is designated as AF955® (UNS…