Effect of vacuum condition in the VIM furnace on the chemical composition, microstructural and mechanical properties of Inconel 718 | 2011 Publication type A1 Journal article (refereed), original research Author(s) Moshtaghi Masoud, Abbasi Mahdi Seied Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
Mechanisms of hydrogen embrittlement in high-strength aluminum alloys containing coherent or incoherent dispersoids | 2022 Publication type A1 Journal article (refereed), original research Author(s) Safyari Mahdieh, Moshtaghi Masoud, Hojo Tomohiko, Akiyama Eiji Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
Inhibition of grain growth by pearlite improves hydrogen embrittlement susceptibility of the ultra-low carbon ferritic steel: the influence of H-assisted crack initiation and propagation mechanisms | 2023 Publication type A1 Journal article (refereed), original research Author(s) Pichler Stefanie, Bendo Artenis, Mori Gregor, Safyari Mahdieh, Moshtaghi Masoud Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
Effect of vacuum degree in VIM furnace on mechanical properties of Ni-Fe-Cr based alloy | 2012 Publication type A1 Journal article (refereed), original research Author(s) Moshtaghi Masoud, Abbasi Seied Mahdi Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
On the role of traps in the microstructural control of environmental hydrogen embrittlement of a 7xxx series aluminum alloy | 2020 Publication type A1 Journal article (refereed), original research Author(s) Safyari Mahdieh, Moshtaghi Masoud, Kuramoto Shigeru Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
New insights into hydrogen trapping and embrittlement in high strength aluminum alloys | 2023 Publication type A1 Journal article (refereed), original research Author(s) Safyari Mahdieh, Khossossi Nabil, Meisel Thomas, Dey Poulumi, Prohaska Thomas, Moshtaghi Masoud Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
Effect of Work‐Hardening Mechanisms in Asymmetrically Cyclic‐Loaded Austenitic Stainless Steels on Low‐Cycle and High‐Cycle Fatigue Behavior | 2020 Publication type A1 Journal article (refereed), original research Author(s) Moshtaghi Masoud, Safyari Mahdieh Other Focus Area Energy - Transition to carbon neutrality LUT School of Energy Systems
