Litcius/Paper detail

Effect of alloying ratios and Cu-addition on corrosion behaviour of CoCrFeNiMo high-entropy alloys in superheated steam containing CO2, H2S and HCl

Andri Ísak Þórhallsson, Ioana Csáki, Laura Elena Geambazu, F. Magnus, Sigrún N. Karlsdóttir

2020Corrosion Science72 citationsDOIOpen Access PDF

Abstract

• CoCrNiFeMo not prone to corrosionand thus shows potential for application in a high-temperature geothermal environment. • Thick Cu 2 S corrosion film observed for CoCrNiFeMoCu high-entropy alloys in the testing environment. • Complex oxide layer observed under outer Cu 2 S corrosion film on CoCrNiFeMoCu bulk alloy. • Cu rich intermetallics prone to corrosion between Mo rich and Ni-Fe rich phases in the CoCrNiFeMoCu high-entropy alloy. This article reports the morphology and corrosion study of CoCrNiFeMo and CoCrNiFeMoCu high-entropy alloys (HEA) tested in a simulated superheated geothermal environment to evaluate whether the alloys are candidate materials for a corrosive high-temperature geothermal environment. The HEA alloys with different alloying ratios were tested in superheated steam at 350 °C and 10 bar gauge containing HCl, H 2 S, and CO 2 with acidic condensate (pH = 3). The Cu containing CoCrNiFeMoCu alloys were prone to corrosion damage and corrosion rate was accelerated by intermetallic Cu rich sites but the CoCrNiFeMo alloys were not prone to corrosion in the test environment.

Topics & Concepts

CorrosionMaterials scienceSuperheated steamMetallurgyIntermetallicSuperheatingGeothermal gradientAlloyThermodynamicsGeophysicsPhysicsGeologyHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdvanced materials and composites