Suppression of Hydrogen Embrittlement due to Local Partitioning of Hydrogen to Dispersed Intermetallic Compound Particles in Al–Zn–Mg–Cu Alloys

Abstract: Recent studies have revealed that hydrogen embrittlement in AlZnMg alloys appears to be dominated by hydrogen partitioning to MgZn 2 precipitates. A method has recently been proposed for reducing the hydrogen concentration at MgZn 2 precipitates by adding specific intermetallic compound particles that have high hydrogen trap energy. In the present study, the effectiveness of Al 7 Cu 2 Fe particles on suppression of hydrogen embrittlement in AlZnMgCu alloys was evaluated using X-ray microtomography. Quasi-cleav… Show more

“…2) was different from the thermodynamic calculations using the existing database, whereas such a result was found in conventional Al-Mg-Zn-Cu alloys. 33,34) The added Ni element enhanced the formation of the fine Al 3 Ni phase located at grain boundaries (Fig. 3) and slightly influenced the precipitation of the T phase in the grain interior.…”

Best Papers Awarded by JILM and JSTP in <i>Materials Transactions</i>

“…2) was different from the thermodynamic calculations using the existing database, whereas such a result was found in conventional Al-Mg-Zn-Cu alloys. 33,34) The added Ni element enhanced the formation of the fine Al 3 Ni phase located at grain boundaries (Fig. 3) and slightly influenced the precipitation of the T phase in the grain interior.…”

Best Papers Awarded by JILM and JSTP in <i>Materials Transactions</i>

Hydrogen embrittlement of retrogression-reaged 7xxx-series aluminum alloys—a comprehensive review

Surrogate model-based assessment of particle damage behaviour of Al Zn Mg alloy