Hydrogen embrittlement in additively manufactured metals: A critical review

What is it about?

Understanding the impact of hydrogen embrittlement (HE) on the mechanical properties of additively manufactured (AM) metals is of utmost importance for industries utilizing these materials, including critical hydrogen transportation and storage applications. This comprehensive review paper explores the effects of HE on AM alloys, emphasizing the crucial role of microstructure and its influence on HE and hydrogen-induced crack initiation (HICI) and propagation processes.

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Photo by Roman Serdyuk on Unsplash

Photo by Roman Serdyuk on Unsplash

Why is it important?

A comprehensive investigation of hydrogen embrittlement (HE) mechanisms and their interaction with microstructure according to the HELP + HEDE model can provide valuable insights into the susceptibility of additively manufactured (AM( metals to HE and hydrogen-induced crack initiation (HICI). Also, it provides an in-depth understanding of hydrogen embrittlement in AM metals, providing recommendations for the design, development, and safety introduction of new additively manufactured alloys in hydrogen-based energy solutions. Understanding the impact of hydrogen embrittlement (HE) on the mechanical properties of additively manufactured (AM) metals is of utmost importance for industries utilizing these materials, including critical hydrogen transportation and storage applications.

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