Litcius/Paper detail

Limitations of Hydrogen Detection After 150 Years of Research on Hydrogen Embrittlement

Matheus A. Tunes, Peter J. Uggowitzer, Phillip Dumitraschkewitz, Patrick Willenshofer, Sebastian Samberger, Felipe Carneiro da Silva, Cláudio Geraldo Schön, Thomas Kremmer, Helmut Antrekowitsch, Milos B. Djukic, Stefan Pogatscher

2024Advanced Engineering Materials23 citationsDOIOpen Access PDF

Abstract

Hydrogen's significance in contemporary society lies in its remarkable energy density, yet its integration into the worldwide energy grid presents a substantial challenge. Exposing materials to hydrogen environments leads to degradation of mechanical properties, damage, and failure. While the current approach for assessing hydrogen's impact on materials involves mainly multiscale modeling and mechanical testing, there exists a significant deficiency in detecting the intricate interactions between hydrogen and materials at the nanoatomic scales and under in situ conditions. This perspective review highlights the experimental endeavors aimed at bridging this gap, pointing toward the imminent need for new experimental techniques that can detect and map hydrogen in materials’ microstructures and their site‐specific dependencies.

Topics & Concepts

Hydrogen embrittlementMaterials scienceHydrogenEmbrittlementMetallurgyCorrosionChemistryOrganic chemistryHydrogen embrittlement and corrosion behaviors in metalsNuclear Materials and PropertiesCorrosion Behavior and Inhibition