Keywords: مکانیسم تقویت; Tungsten heavy alloy; Liquide-liquid doping; Zirconia; Compressive strength; Strengthening mechanism;
مقالات ISI مکانیسم تقویت (ترجمه نشده)
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Keywords: مکانیسم تقویت; Carbon/carbon composites; Fatigue behavior; Interface; Strengthening mechanism;
Keywords: مکانیسم تقویت; Cemented carbide; Image processing; Finite element analysis; Thermal residual stress; Strengthening mechanism; Toughening mechanism;
Keywords: مکانیسم تقویت; Microalloying; Precipitation; Titanium; Tungsten; Strengthening mechanism;
Keywords: مکانیسم تقویت; Graphene/copper; Molecular dynamics simulation; Nanoindentation; Strengthening mechanism;
Keywords: مکانیسم تقویت; High entropy alloy; Surface mechanical attrition treatment; Microstructure; Hardness; Strengthening mechanism;
Keywords: مکانیسم تقویت; Epoxy composites; Multi-walled carbon nanotubes; Nano-SiO2 particles; Mechanical properties; Strengthening mechanism;
Keywords: مکانیسم تقویت; Strengthening mechanism; Aging treatment; Pulsed electromagnetic loading; Laser-welded 2219 aluminium alloy; Microstructure evolution;
Keywords: مکانیسم تقویت; Nickel based superalloys; High-temperature and low-stress creep; Misfit dislocation; Core structure; Stress distribution; Strengthening mechanism;
Keywords: مکانیسم تقویت; Additive manufacturing; Strengthening mechanism; Graphene; Microstructure; Mechanical property; Metal matrix nanocomposite;
Keywords: مکانیسم تقویت; Graphene nanoplatelets; Magnesium matrix composites; Mechanical properties; Strengthening efficiency; Strengthening mechanism;
Keywords: مکانیسم تقویت; Al nanocomposite; Graphene nanoplatelets; Spark plasma sintering; Microstructural analysis; Strengthening mechanism; Fractography;
Keywords: مکانیسم تقویت; Mg alloy; Mechanical property; Dynamic recrystallization; Segregation; Strengthening mechanism;
Keywords: مکانیسم تقویت; Eutectic high entropy alloys; Strengthening mechanism; Deformation mechanism; Dislocations; Plasticity; Micro-/nanoindentation;
Keywords: مکانیسم تقویت; laser shock processing without coating; K24 nickel based alloy; high-cycle fatigue; fatigue fracture; residual stress; strengthening mechanism;
Keywords: مکانیسم تقویت; Medium manganese austenitic steel; Impact abrasive wear; Wear resistance; Strengthening mechanism;
Keywords: مکانیسم تقویت; Alloy 693; Isothermal ageing; γⲠprecipitation; Hardness; Tensile properties; Strengthening mechanism;
Keywords: مکانیسم تقویت; Metal matrix composites; Extrusion; Fibers orientation evolution; Strengthening mechanism; Strengthening effect model;
Keywords: مکانیسم تقویت; Grade 91 steel; Creep strength; Strengthening mechanism; Grain size effect; Creep life evaluation; Multi-region modelling;
Keywords: مکانیسم تقویت; Polycrystal; Anisotropy; Strengthening mechanism; Yield strength;
Keywords: مکانیسم تقویت; Concrete beam; Fracture; Channel steel plate; Strengthening mechanism; Numerical study;
Keywords: مکانیسم تقویت; Lath martensite; Boundaries; Strengthening mechanism; Uniaxial micro-tensile test;
Keywords: مکانیسم تقویت; micro-alloying; titanium; niobium; high-strength steel; strengthening mechanism;
Keywords: مکانیسم تقویت; Al-Cu-Mg alloy; High-pressure torsion; Differential scanning calorimetry; Strengthening mechanism; Atom-probe tomography;
Keywords: مکانیسم تقویت; Magnesium alloys; High strength; Alloying; Strengthening mechanism;
Keywords: مکانیسم تقویت; Phase transformation; Strengthening mechanism; Constitutive behavior; Rate-dependent material; Finite element method
Keywords: مکانیسم تقویت; Graphene; Cu; Composite; In-situ; Three-dimensional network; Strengthening mechanism;
Keywords: مکانیسم تقویت; Strengthening mechanism; Dislocation; Slip transmission; Nanotwinned Cu; Molecular dynamics;
Keywords: مکانیسم تقویت; Aluminium alloys; Cluster; Strengthening mechanism; Modelling
Keywords: مکانیسم تقویت; Carbon nanotubes; Microstructure; Mechanical properties; Mg matrix composite; Strengthening mechanism;
Keywords: مکانیسم تقویت; Nanolaminated composites; Flake powder metallurgy; Flake thickness effect; Strengthening mechanism; Finite-element analysis
Keywords: مکانیسم تقویت; Steel design; Microstructures; Mechanical properties; Automotive wheel steel; Cooling schedule; Strengthening mechanism
Keywords: مکانیسم تقویت; Al alloys; Precipitation; Strengthening mechanism; Ultrafine-grained materials; Atom-probe tomography
Keywords: مکانیسم تقویت; Micro-machining; Heterogeneous materials; Ceramic particle reinforcement; Metal matrix composites; Size effect; Minimum chip thickness; Tool-workpiece interaction; Strengthening mechanism; Materials microstructural effect; Materials mechanical property;
Keywords: مکانیسم تقویت; HfC/SiC nanomultilayered film; Microstructure; Epitaxial growth; Mechanical property; Strengthening mechanism
Keywords: مکانیسم تقویت; Cavitation bubble; Laser processing; Dynamic characteristics; Strengthening mechanism
Contribution of Mg2Si precipitates to the strength of direct metal laser sintered AlSi10Mg
Keywords: مکانیسم تقویت; Direct metal laser sintering (DMLS); Additive manufacturing; Transmission electron microscopy (TEM); Strengthening mechanism;
Effect of rhenium content on microstructures and mechanical properties of electron beam welded TZM alloy joints
Keywords: مکانیسم تقویت; Electron beam welding; Molybdenum-titanium-zirconium alloy; Rhenium addition; Microstructure; Strengthening mechanism;
Strengthening mechanism of gradient nanostructured body-centred cubic iron film: From inverse Hall-Petch to classic Hall-Petch
Keywords: مکانیسم تقویت; Gradient-nanograined metals; Strengthening mechanism; Molecular dynamics; Gradient strain/stress distribution;
In situ formation of low interstitials Ti-TiC composites by gas-solid reaction
Keywords: مکانیسم تقویت; Titanium matrix composites.; TiC; CH4; Gas-solid reaction; Strengthening mechanism;
Microstructure and property characterization of Al-based composites reinforced with CuZrAl particles fabricated by mechanical alloying and spark plasma sintering
Keywords: مکانیسم تقویت; Al-based composites; CuZrAl reinforcement; Mechanical property; Strengthening mechanism; Corrosion resistance;
Investigation on particle strengthening effect in in-situ TiB2/2024 composite by nanoindentation test
Keywords: مکانیسم تقویت; Metal matrix composites; Nano-indentation; Strengthening mechanism; Young's modulus; Hardness;
Formability and strengthening mechanism of AA6061 tubular components under solid granule medium internal high pressure forming
Keywords: مکانیسم تقویت; AA6061 alloy; internal high pressure forming; heat treatment; strengthening mechanism;
Strengthening mechanisms in magnesium alloys containing ternary I, W and LPSO phases
Keywords: مکانیسم تقویت; Magnesium alloy; I-phase; W-phase; LPSO phase; Strengthening mechanism;
Correlations between microstructures and properties of Cu-Ni-Si-Cr alloy
Keywords: مکانیسم تقویت; Cu-Ni-Si-Cr alloy; Microstructure; Strengthening mechanism; Electrical scattering mechanism;
Microstructural evolution and its effect on the mechanical behavior of Ti-5Al-5Mo-5V-3Cr alloy during aging
Keywords: مکانیسم تقویت; Ti-5553 alloy; High-pressure torsion; α phase precipitates; Mechanical properties; Strengthening mechanism;
Mechanical properties and microstructural evolution in a superlight Mg-7.28Li-2.19Al-0.091Y alloy fabricated by rolling
Keywords: مکانیسم تقویت; Mg-Li alloy; Mechanical property; Microstructure; Strengthening mechanism;
Continuous microstructure evolution of ball rolled TWIP Ti15Mo alloy and its effect on phase precipitation behavior
Keywords: مکانیسم تقویت; Titanium alloy; Ball rolling; Twinning; Microstructure evolution; Precipitation behavior; Strengthening mechanism;
Interfacial design and strengthening mechanisms of AZ91 alloy reinforced with in-situ reduced graphene oxide
Keywords: مکانیسم تقویت; Graphene; Magnesium matrix composite; Interface structure; Strengthening mechanism;
The effect of boron addition on the high-temperature properties and microstructure evolution of high Nb containing TiAl alloys
Keywords: مکانیسم تقویت; TiAl alloys; High-temperature properties; Microstructure evolution; Boron addition; Dislocations; Strengthening mechanism;