220 B RP
Boston, MA 02115
United States
Northeastern University (USA)
Ti alloy, deformation mechanism, Cryogenic temperatures, twins, carbon element
Ti alloy, deformation mechanism, cryogenic temperatures, twins, carbon element
Co-Al-W-base superalloy, intermediate temperature abnormal plasticity, Plastic deformation, dislocation transformation
temperature/stress coupled field, Tensile properties, In718 superalloy, γ″ phase, δ phase
Oriented nucleation mechanism, Pure Ti, Electric-pulse treatment, Annealing, Pyramidal dislocation.
Co-Al-W-base superalloys, stacking fault, the nucleation of SF, the extension of SF
Co-Al-W-base superalloys, stacking fault, the nucleation of SF, the extension of SF, the plastic contribution of SF
Inconel 718, transmission electron microscopic, Neutron diffraction, Lattice mismatch, preferentially growth