The hydrogen embrittlement (HE) is investigated for the titanium alloy Ti-6Al-4V, processed by
different manufacturing methods. The mechanical characteristics of conventionally cold rolled, as-built
laser powder bed fused (L-PBF) and heat treated L-PBF Ti-6Al-4V are compared under in-situ
electrochemical hydrogen charging at room temperature. The microstructure determines the
susceptibility to HE, which is examined by a combination of in-situ constant extension rate tensile tests,
X-ray tomography, X-ray diffraction, hydrogen melt extraction, scanning electron microscopy, and
electron backscatter diffraction. The presence of β phase facilitates an increased hydrogen uptake
capacity, resulting in an enhanced HE-susceptibility. In-situ hydrogen assisted failure of duplex α-β
microstructure of conventionally cold rolled Ti-6Al-4V occurs via a strain rate dependent mechanism,
i.e. hydrogen enhanced localised plasticity (HELP) at fast strain rates and a combination of HELP and
stress induced hydride formation (SIHF) at slow strain rates. Meanwhile, the martensitic α’
microstructure of as-built L-PBF Ti-6Al-4V shows clear evidence of prevalent hydrogen degradation
via SIHF after slow straining. However, hydrogen significantly deteriorates the mechanical behaviour
in L-PBF material due to a fatal synergetic interaction with porosity related stress fields, dominating
failure characteristics after hydrogenation. The same effect applies for the inherent porosities in heat
treated L-PBF Ti-6Al-4V with a fine α-β microstructure. Therefore, knowledge on these microstructural
interactions with hydrogen will allow the development of more HE resistant Ti-6Al-4V.
«The hydrogen embrittlement (HE) is investigated for the titanium alloy Ti-6Al-4V, processed by
different manufacturing methods. The mechanical characteristics of conventionally cold rolled, as-built
laser powder bed fused (L-PBF) and heat treated L-PBF Ti-6Al-4V are compared under in-situ
electrochemical hydrogen charging at room temperature. The microstructure determines the
susceptibility to HE, which is examined by a combination of in-situ constant extension rate tensile tests,
X-ra...
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