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51318-10512-Effects of nitride precipitation in duplex stainless steel

The aim of this paper is to find a correlation between nitride content/distribution and properties of two of the largely adopted Duplex Stainless Steel (DSS), UNS* S32205 and UNS S32750. *Unified Numbering System

Product Number: 51318-10512-SG
Author: Marco De Marco / Marco Palombo / Anthony Pianezze / Abderrahmane Taiche / Valentina Spinelli / Marina Delucchi
Publication Date: 2018
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Duplex Stainless Steels (DSS) are characterized by a dual-phase ferritic-austenitic microstructure and exhibit high corrosion resistance and excellent mechanical properties. However, formation of different types of intermetallic phases and precipitated compounds may occur during fabrication processes such as welding, hot working and heat treatments; this can influence toughness and corrosion resistance. With regard to this, some material standards/specifications (NACE, NORSOK, Company standards) introduced certain requirements for the precipitates content (e.g. sigma phase, chromium nitrides) in the DSS microstructure.

However, these limits can deviate from the accuracy/capability of the most common counting methods (e.g. Light Optical Microscope-LOM) point-counting, scanning electron microscope (SEM)-counting, image analysis using dedicated software), especially for very fine and interspersed phases such as nitrides. The aim of this paper is to find a correlation between nitride content/distribution and properties of two of the largely adopted DSS, UNS S32205 and UNS S32750. In order to verify the detrimental effects on corrosion and toughness of the nitride precipitation (NP), pitting corrosion tests and Charpy-V impact tests and fracture mechanics tests were carried out on different simulated bulk specimens.

 

Keywords: Duplex Stainless Steel, Corrosion, Chromium Nitrides, Oil & Gas, Pitting, Fatigue, Toughness.

Duplex Stainless Steels (DSS) are characterized by a dual-phase ferritic-austenitic microstructure and exhibit high corrosion resistance and excellent mechanical properties. However, formation of different types of intermetallic phases and precipitated compounds may occur during fabrication processes such as welding, hot working and heat treatments; this can influence toughness and corrosion resistance. With regard to this, some material standards/specifications (NACE, NORSOK, Company standards) introduced certain requirements for the precipitates content (e.g. sigma phase, chromium nitrides) in the DSS microstructure.

However, these limits can deviate from the accuracy/capability of the most common counting methods (e.g. Light Optical Microscope-LOM) point-counting, scanning electron microscope (SEM)-counting, image analysis using dedicated software), especially for very fine and interspersed phases such as nitrides. The aim of this paper is to find a correlation between nitride content/distribution and properties of two of the largely adopted DSS, UNS S32205 and UNS S32750. In order to verify the detrimental effects on corrosion and toughness of the nitride precipitation (NP), pitting corrosion tests and Charpy-V impact tests and fracture mechanics tests were carried out on different simulated bulk specimens.

 

Keywords: Duplex Stainless Steel, Corrosion, Chromium Nitrides, Oil & Gas, Pitting, Fatigue, Toughness.

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