Keywords: شکن لیزری; Welding; Laser shock peening; Mechanical properties; Microstructure;
مقالات ISI ترجمه شده شکن لیزری
مقالات ISI شکن لیزری (ترجمه نشده)
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Keywords: شکن لیزری; Laser shock peening; Microhardness; Side-water spraying; Coaxial-water feeding;
Keywords: شکن لیزری; Brass; Laser shock peening; Mechanical behaviors; Grain refinement;
Keywords: شکن لیزری; K417 nickel-based alloy; Laser shock peening; Surface nanostructure; Gas aluminizing; Diffusion mechanism; Fatigue strength;
Keywords: شکن لیزری; Creep properties; Laser shock peening; EBSD; 7075 aluminum alloy;
Keywords: شکن لیزری; Laser shock peening; Fatigue life; Residual stress;
Keywords: شکن لیزری; Neutron transmission; Residual strain; Strain mapping; Bragg edge analysis; Cold expansion; Laser shock peening;
Keywords: شکن لیزری; Laser shock peening; Surface; Plastic deformation; Microstructure; Nanocrystalline;
Keywords: شکن لیزری; Laser shock peening; Wire-arc additive manufacturing; Microstructure; Residual stress; Tensile properties;
Keywords: شکن لیزری; Laser shock peening; Ni-based superalloy; Surface nanocrystalline; Thermal stability; In-situ transmission electron microscopy (TEM) annealing;
Keywords: شکن لیزری; Laser shock peening; Irradiation; In-situ TEM; Stainless steel; Microstructure;
Keywords: شکن لیزری; Superferritic stainless steel; Laser shock peening; Fatigue; Microstructure;
Keywords: شکن لیزری; Aluminum alloy; Laser shock peening; Microstructural observation; High temperature fatigue; Fracture;
Keywords: شکن لیزری; Titanium; Laser shock peening; High temperature oxidation; Surface analysis; Nitrogen insertion;
Keywords: شکن لیزری; Laser shock peening; LSP; SiC; Ceramics; Hardness; K1c; Residual stress; Microstructure; Surface finish; Composition and phase transformation;
Keywords: شکن لیزری; Selective laser melting; Laser shock peening; 3D Laser shock peening; Residual stress profile; 15-5 PH stainless steel; 316L stainless steel;
Keywords: شکن لیزری; Titanium; Laser shock peening; Plastic deformation; Microstructure; Grain refinement; Hardness;
Keywords: شکن لیزری; Laser shock peening; Ti-17 titanium alloy; Impact toughness; Residual stress; Microstructure;
Keywords: شکن لیزری; AISI 304ss; Laser shock peening; Surface nanocrystallization; Martensite
Keywords: شکن لیزری; Laser shock peening; Bulk metallic glass; Aspect ratio; Compressive deformation; Excess free volume;
Keywords: شکن لیزری; Wrought superalloy; Laser shock peening; Surface topography; Surface reliefs;
Keywords: شکن لیزری; Laser shock peening; 304 stainless steel; Residual stress; Phase transformation; Austenite; Martensite
Keywords: شکن لیزری; Surface treatment; Fatigue; Magnesium; Biodegradable implant; Laser shock peening;
Keywords: شکن لیزری; Laser shock peening; Overlap; Simulation; Residual stress distribution; Three dimension analyze;
Keywords: شکن لیزری; Aluminum alloy; Laser shock peening; SEM; Corrosion resistance; Stress corrosion;
Keywords: شکن لیزری; Laser shock peening; Finite element method; Residual stress; 316L; Fatigue
Keywords: شکن لیزری; IF steel; LASER shock peening; Hardness; Tensile properties; Corrosion behavior;
Keywords: شکن لیزری; Laser shock peening; Stress stability; Fatigue behavior; Steel alloy
Keywords: شکن لیزری; Laser shock peening; Laser surface texturing; Non-smooth surface; Dry sliding wear; Microstructure;
Keywords: شکن لیزری; Eigenstrain; Fatigue; Laser shock peening; Residual stress;
Keywords: شکن لیزری; Ni-based superalloys; Laser shock peening; Cavitation; Residual stresses; X-ray diffraction;
Effects of laser shock peening with different coverage layers on fatigue behaviour and fractural morphology of Fe-Cr alloy in NaCl solution
Keywords: شکن لیزری; Laser shock peening; Fe-Cr alloy; Fractural morphology; Corrosion fatigue; Stress corrosion;
Effects of service temperature on tensile properties and microstructural evolution of CP titanium subjected to laser shock peening
Keywords: شکن لیزری; Laser shock peening; Commercial pure titanium; Temperature; Tensile property; Deformation twin; Dislocation structure;
In-situ synchrotron X-ray diffraction study of dual-step strain variation in laser shock peened metallic glasses
Keywords: شکن لیزری; Metallic glass; Laser shock peening; In-situ synchrotron X-ray diffraction; Flow unit interconnection;
Corrosion behavior of as-weld CLAM steel after laser shock peening process and tempering in static molten lithium lead
Keywords: شکن لیزری; As-weld CLAM steel; Laser shock peening; Tempering; Molten lithium lead;
Evaluation of macro- and microscopic residual stresses in laser shock-peened titanium alloy by FIB-DIC ring-core milling with different core diameters
Keywords: شکن لیزری; Titanium; Laser shock peening; Residual stress; FIB-DIC; Ti-6Al-4V;
Effects of laser shock peening with contacting foil on micro laser texturing surface of Ti6Al4V
Keywords: شکن لیزری; Laser texturing; Laser shock peening; Contacting foil; Surface topography; Titanium alloy;
Effect of heat treatment and laser shock peening on the microstructures and properties of electron beam welded Ti-6.5Al-1Mo-1V-2Zr joints
Keywords: شکن لیزری; Titanium alloy; Laser shock peening; Electron beam welding; Heat treatment;
Laser shock peening of laser additive manufactured Ti6Al4V titanium alloy
Keywords: شکن لیزری; Laser shock peening; Laser additive manufacturing; Titanium alloy; Microstructure; Mechanical properties;
Wear behavior of Mg-3Al-1Zn alloy subjected to laser shock peening
Keywords: شکن لیزری; Laser shock peening; Laser pulse energy; Mg-3Al-1Zn alloy; Wear behavior;
The effects of laser shock peening scanning patterns on residual stress distribution and fatigue life of AA2024 aluminium alloy
Keywords: شکن لیزری; Laser shock peening; Residual stress distribution; Fatigue life; Finite element method; AA 2024 aluminium alloy;
Effect of laser energy on microstructure of Mg-3Al-1Zn alloy treated by LSP
Keywords: شکن لیزری; Laser pulse energy; Mg-3Al-1Zn alloy; Microstructure; Laser shock peening;
Gradient twinning microstructure generated by laser shock peening in an AZ31B magnesium alloy
Keywords: شکن لیزری; Mg alloys; Laser shock peening; Gradient microstructure; Deformation twinning;
Surface characterization and tribological performance of laser shock peened steel surfaces
Keywords: شکن لیزری; Laser shock peening; Coefficient of friction; Transfer layer formation; Surface roughness;
Laser shock peening induced fatigue crack retardation in Ti-17 titanium alloy
Keywords: شکن لیزری; Laser shock peening; Microstructure; Residual stress; Deceleration zone; Fatigue crack retardation;
Localized plastic deformation and hardening in laser shock peened Inconel alloy 718SPF
Keywords: شکن لیزری; Laser shock peening; Electro backscatter diffraction; Inconel; Image quality mapping; Misorientation; Micro pillar compression;
Microstructure and properties in the weld surface of friction stir welded 7050-T7451 aluminium alloys by laser shock peening
Keywords: شکن لیزری; Friction stir welding; Aluminium alloys; Laser shock peening; Microstructure; Residual stress;
The in-depth residual strain heterogeneities due to an indentation and a laser shock peening for Ti-6Al-4V titanium alloy
Keywords: شکن لیزری; Laser shock peening; Indentation; Ti-6Al-4V; Residual strains; Elastic-visco-plastic finite element model;
Experimental and numerical investigation of residual stresses in laser shock peened AA2198
Keywords: شکن لیزری; Laser shock peening; AA2198; Residual stress; Hole drilling; X-ray diffraction; Focus size; Tempering conditions; Finite element analysis;
Improvement of high-temperature fatigue performance in the nickel-based alloy by LSP-induced surface nanocrystallization
Keywords: شکن لیزری; Surface nanocrystallization; Laser shock peening; Residual stress; High-and-low cycle combined fatigue;