Keywords: جرقه زدن انرژی خطا; Stacking fault energy; High-entropy alloys; Twining; Mechanical properties;
مقالات ISI جرقه زدن انرژی خطا (ترجمه نشده)
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Keywords: جرقه زدن انرژی خطا; High entropy alloy; Defects; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Austenitic 316 stainless steel; Deformation twinning; Stacking fault energy; Neutron diffraction;
Keywords: جرقه زدن انرژی خطا; Titanium; Hydrogen; Stacking fault energy; First-principles;
Keywords: جرقه زدن انرژی خطا; Interstitial loops; Radiation-induced segregation; Stacking fault energy; Atomistic simulations; Single-phase concentrated solid-solution alloys;
Keywords: جرقه زدن انرژی خطا; Tungsten; Alloying elements; Stacking fault energy; Ductility; First principle calculation;
Keywords: جرقه زدن انرژی خطا; Severe plastic deformation (SPD); High-pressure torsion (HPT); Ultrafine-grained (UFG) metals; Magnesium-lithium alloys; Aluminum-zinc alloys; stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Gradient structure; Strength; Ductility; Twinning; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Wear; Alloy design; Stainless steel; Phase transformation; Twinning; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; BCC; body-centered cubic; CG; coarse-grained; CTB; coherent twin boundary; DDZ; defect denuded zone; dpa; displacements-per-atom; ECAP; equal channel angular pressing; FCC; face-centered cubic; GB; grain boundary; HCP; hexagonal close-packed; HRTEM; high-
Keywords: جرقه زدن انرژی خطا; High entropy alloy; Stacking fault energy; First-principles; Phase stability;
Keywords: جرقه زدن انرژی خطا; High-entropy alloys; Dislocation dissociation; Stacking fault energy; Lattice distortion;
Keywords: جرقه زدن انرژی خطا; Screw dislocation; Edge dislocation; QM/MD method; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Metals and alloys; Simulation and modelling; Mechanical properties; First-principles calculation; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Concentrated solid solution alloys; Stacking fault energy; First-principles calculations; Vibrational entropy;
Keywords: جرقه زدن انرژی خطا; Fatigue cracking; Twin boundary; Stacking fault energy; Orientation;
Keywords: جرقه زدن انرژی خطا; Stacking fault energy; Solute concentration; First-principles calculations; Cu alloys;
Keywords: جرقه زدن انرژی خطا; 304 austenitic stainless steel; Cryogenic rolling; Deformation induced martensite; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Arthroplasty; Joint replacement; Medical alloys; Review; Surface treatment; 3DP; 3D Printing; ALM; additive layer manufacturing; AM; additive manufacturing; ARB; accumulative roll bonding; ASTM; American Society of Testing Materials; AWJ; abrasive water j
Keywords: جرقه زدن انرژی خطا; TC6 titanium alloy; AISI 304 stainless steel; Laser shock processing; Ultrahigh strain-rate; Surface nanocrystallization; Stacking fault energy
Keywords: جرقه زدن انرژی خطا; Stacking fault energy; Austenitic steel; Plasticity; Transmission electron microscopy; Density functional theory;
Keywords: جرقه زدن انرژی خطا; Densification; Stainless steel; Hot isostatic pressing; Constitutive equations; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Friction stir processing; Nickel aluminum bronze; Wear; Sub surface; Stacking fault energy; X-ray diffraction;
Keywords: جرقه زدن انرژی خطا; Equal-channel angular pressing; Stacking fault energy; Deformation temperature; Dislocations; Steady-state grain size;
Keywords: جرقه زدن انرژی خطا; Commercial purity titanium; Accumulative roll bonding; Nanostructure; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Vanadium alloys; Solute size; Solubility; Stacking fault energy; First-principles calculation;
Keywords: جرقه زدن انرژی خطا; Recrystallization; Cryo-rolling; Stacking fault energy; Nano-twins; Grain refinement;
Keywords: جرقه زدن انرژی خطا; High manganese steels; Stacking fault energy; Mechanical twin; Deformation-induced ε-martensite; Work hardening
Keywords: جرقه زدن انرژی خطا; Deformation twinning; Copper alloys; Cryogenic deformation; Stacking fault energy; Texture transition;
Keywords: جرقه زدن انرژی خطا; Stacking fault energy; Solid solution; First-principles energy calculations; Aluminum materials;
Keywords: جرقه زدن انرژی خطا; Ab initio; Stacking fault energy; Projector augmented wave; Stacking fault density
Keywords: جرقه زدن انرژی خطا; Metastable austenitic steel; Stacking fault energy; Transmission electron microscopy (TEM); Lattice parameter
Keywords: جرقه زدن انرژی خطا; Stacking fault energy; First-principles calculations; CALPHAD modeling approach; Alias shear deformation; Multicomponent Ni-base alloys;
Keywords: جرقه زدن انرژی خطا; Severe plastic deformation; Dislocation density; Model; Stacking fault energy;
Keywords: جرقه زدن انرژی خطا; Superalloy; Stacking fault energy; Isolated fault; Extended stacking fault; Microtwin
Keywords: جرقه زدن انرژی خطا; Tensile behavior; Deformation mechanisms; Yield strength; Stacking fault energy; Ru
Keywords: جرقه زدن انرژی خطا; Severe plastic deformation (SPD); Liquid nitrogen; Ultrafine-grained (UFG) materials; Self-annealing; Stacking fault energy; Homologous temperature;
Keywords: جرقه زدن انرژی خطا; Austenitic high interstitial steels; Fatigue; Stacking fault energy; Density of free electrons
Keywords: جرقه زدن انرژی خطا; Stacking fault energy; Iron; Carbon; In situ TEM; DFT
Keywords: جرقه زدن انرژی خطا; Stainless steels; Neutron diffraction; Nanoindentation; Stacking fault energy
Enhancing tensile properties of Cu and Cu-Al alloys cryogenically processed by high pressure torsion
Keywords: جرقه زدن انرژی خطا; Tensile properties; High pressure torsion; Stacking fault energy; Cryogenic deformation; Cu-Al alloys;
Microstructure refining of Co-29Cr-6Mo-0.16N alloy in rapid hot-forging process
Keywords: جرقه زدن انرژی خطا; Dynamic recrystallization; Co-Cr-Mo alloy; Stacking fault energy;
Synchronous improvement of the strength and plasticity of Ni-Co based superalloys
Keywords: جرقه زدن انرژی خطا; Superalloy; Stacking fault energy; Strength and plasticity; Planar slip; Deformation twinning;
Stress corrosion cracking susceptibility of 310S stainless steel in hydrogenated hot water
Keywords: جرقه زدن انرژی خطا; SSRT; Hydrogen assisted SCC; Cross slip; Stacking fault energy;
High-concentration carbon assists plasticity-driven hydrogen embrittlement in a Fe-high Mn steel with a relatively high stacking fault energy
Keywords: جرقه زدن انرژی خطا; Hydrogen embrittlement; High-manganese austenitic steel; Tension test; Stacking fault energy; Microstructure; Electron channelling contrast imaging;
Size-dependent stability of stacking fault tetrahedron in coherent twin boundary bicrystal: Comparisons among Al, Ni, Cu and Ag
Keywords: جرقه زدن انرژی خطا; Stacking fault tetrahedron; Coherent twin boundary; Stacking fault energy; Stability; Interaction;
Connecting interatomic potential characteristics with deformation response in FCC materials
Keywords: جرقه زدن انرژی خطا; Molecular dynamics; Interatomic potentials; Mechanical behavior; Stacking fault energy; Grain boundaries; FCC materials;
Effects of Sn addition on dynamic recrystallization of Mg-5Zn-1Mn alloy during high strain rate deformation
Keywords: جرقه زدن انرژی خطا; Magnesium alloy; Sn; Dynamic recrystallization; Stacking fault energy;
Simultaneously improving the strength and ductility of Fe-22Mn-0.6C twinning-induced plasticity steel via nitrogen addition
Keywords: جرقه زدن انرژی خطا; Twinning-induced plasticity (TWIP) steel; Stacking fault energy; Deformation twin; Nitrogen; Dynamic strain aging;
Microstructural response of He+ irradiated FeCoNiCrTi0.2 high-entropy alloy
Keywords: جرقه زدن انرژی خطا; High-entropy alloy; Helium bubbles; Faulted dislocation loops; Stacking fault energy;