Wuhan, Wuhan 430063
China
Wuhan University of Technology
Co superalloy, Laser powder bed fusion, Dislocation, Stacking fault, Precipitation
Co superalloy, Laser powder bed fusion, Dislocation, Twin-twin interaction, Precipitation
Laser-directed energy deposition, NiTi alloys, Grain structure, Recovery strain, Martensite variant microstructure
Shape memory alloy, Superelasticity, Mechanical properties, Direct Energy Deposition
NiTiFe alloys, additive manufacturing, In-situ monitoring technology, Cyclic stability, NiTi2 phase
NiTi shape memory alloy, Local stress field, B19' nucleation, Superelasticity, Laser directed energy deposition
Laser powder bed fusion, Numerical simulation, multiphysics fields, melt pool evolution, defects
NiTiFe alloys, Additive manufacturing, In-situ monitoring technology, Cyclic stability, NiTi2 phase