Lanzhou
China
Lanzhou University of Technology
titanium (A), welding (C), hydrogen embrittlement (C), damage (C)
Titanium matrix composites (A), Wire-based laser direct energy deposition (B), Laser-induced nitriding in-situ synthesis (B), Microstructure (C), Strengthening mechanisms (C)
Zn-Al-Mg coated steel, laser welding, Beam shaping, Weld seam formation, Weld microstructure
methylene blue, Photocatalytic activity, dual Z-scheme heterojunction, carrier migration and separation, DFT/FEM
Laser-arc coaxial hybrid additive manufacturing, Low-rare-earth magnesium alloy, High-temperature creep, Strengthening phases, Creep mechanism
Titanium matrix composites (A), Wire-based laser direct energy deposition (B), In-situ nitriding (B), Microstructure evolution (C), Strengthening mechanisms (C)