Keywords: مکانیسم های تقویت; Carbon nanotubes; High pressure torsion; Strengthening mechanisms; Grain refinement;
مقالات ISI مکانیسم های تقویت (ترجمه نشده)
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Keywords: مکانیسم های تقویت; Pearlitic rail steel; TEM; Hardness; Strengthening mechanisms; Dislocation density;
Keywords: مکانیسم های تقویت; Creep; Microstructures; Phase transformation; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Multiphase steels; Mechanical response; Isothermal treatments; Prior athermal martensite; Bainitic ferrite; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Cu matrix composites; Carbon nanotubes; Graphene; Reticulate structure; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Nanosized SiC particulates; Nanosized SiCP/Al composites; Grain refinement; Mechanical properties; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Taylor test; Microalloyed steel; Strengthening mechanisms; Inhomogenity of deformation; Microstructures; High strain rate;
Keywords: مکانیسم های تقویت; Metal matrix composites (MMCs); Carbon nanotubes (CNTs); Strengthening mechanisms; Orowan mechanism; Load transfer; Length effect;
Keywords: مکانیسم های تقویت; Aluminum alloys; Thermomechanical processing; Hardening; Dislocations; Grain boundaries; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Metal matrix composites (MMCs); In-situ processing; Polymer derived ceramics; Microstructural evolution; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Surface mechanical attrition treatment; Severe plastic deformation; Stainless steel; Nanocrystalline; Dislocations; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Commercial pure titanium; Accumulative roll bonding; Nano-grained; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; A. creep; Plastic collapse; Strengthening mechanisms; B. elastic-viscoplastic material; C. mechanical testing;
Keywords: مکانیسم های تقویت; Aluminum; Nanocomposites; In-situ Casting; Strengthening mechanisms; Grain refinement;
Keywords: مکانیسم های تقویت; 3D discrete dislocation dynamics; Dislocations; Strengthening mechanisms; Low angle grain boundaries; Particulate reinforced material;
Keywords: مکانیسم های تقویت; Grain boundaries; Ductility; Strengthening mechanisms; Polycrystalline material;
Keywords: مکانیسم های تقویت; High-entropy alloys; Precipitation hardening; Strengthening mechanisms; Mechanical properties; 3 dimensional atom probe tomography
Keywords: مکانیسم های تقویت; Dual phase steel; Strip casting; Thermo-mechanical processing; Microstructure characterisation; Mechanical properties; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Graphene nanoplatelets; Cu matrix composites; Semi-powder method; Mechanical properties; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Nanostructured materials; Strengthening mechanisms; Accumulative roll bonding;
Keywords: مکانیسم های تقویت; TEM; APT; Al-Li-Cu alloys; Precipitates; Strengthening mechanisms;
Keywords: مکانیسم های تقویت; Intermetallic phases – iron aluminides; ODS materials; Mechanical properties – high temperature deformation; Creep; Strengthening mechanisms
Keywords: مکانیسم های تقویت; Al-Mg-Si aluminum alloy; severe plastic deformation; equal-channel angular pressing; aging behavior; precipitation kinetics; mechanical properties; strengthening mechanisms;
Keywords: مکانیسم های تقویت; TMCP; HSLA steel; Strengthening mechanisms; Dislocation density; CBED;
Keywords: مکانیسم های تقویت; Nanocrystalline; Thin films; Alloys; Strengthening mechanisms; Atom probe tomography;
Keywords: مکانیسم های تقویت; Strengthening mechanisms; Hall-Petch; Yield stress; ECAP; TEM;
Keywords: مکانیسم های تقویت; Pipeline steel; Microstructure; MA constituent; Carbonitrides; Strengthening mechanisms;
Strengthening mechanisms of Mo-La2O3 alloys processed by solid-solid doping and vacuum hot-pressing sintering
Keywords: مکانیسم های تقویت; Hot-pressing sintering; Molybdenum alloys; La2O3 particles; Microstructure; Strengthening mechanisms;
Microstructure, mechanical properties and strengthening mechanisms of Mg matrix composites reinforced with in situ nanosized TiB2 particles
Keywords: مکانیسم های تقویت; In situ; Nanosized TiB2 particles; Mg matrix composites; Microstructure; Mechanical properties; Strengthening mechanisms;
Doping Ti to achieve microstructural refinement and strength enhancement in a high volume fraction Y2O3 dispersion strengthened Cu
Keywords: مکانیسم های تقویت; Oxide dispersion strengthened Cu; Microalloying; Yttrium oxide; Microstructural refinement; Strengthening mechanisms; Electrical conductivity;
Deformation behavior of βⲠand βâ²â²â² precipitates in Mg-RE alloys
Keywords: مکانیسم های تقویت; Magnesium alloy; Strengthening mechanisms; Scanning/transmission electron microscopy (STEM);
Influence of mechanical alloying and extrusion conditions on the microstructure and tensile properties of Low-Cr ODS FeCrAl alloys
Keywords: مکانیسم های تقویت; Oxide dispersion strengthened (ODS) alloy; Strengthening mechanisms; Precipitation; Mechanical properties;
The effect of Sc on plastic deformation of Mg-Sc binary alloys under tension
Keywords: مکانیسم های تقویت; Mg-Sc binary alloys; Plastic deformation; Strengthening mechanisms; Twinning; Strain rate sensitivity; Texture evolution;
Strengthening and toughening mechanisms of CNTs/Mg-6Zn composites via friction stir processing
Keywords: مکانیسم های تقویت; Mg matrix composites; Carbon nanotubes; Friction stir processing; Strengthening mechanisms; Mechanical properties;
Compositionally gradient Ti-Ta metal-metal composite with ultra-high strength
Keywords: مکانیسم های تقویت; Compositionally gradient; Metal-metal composite; Strengthening mechanisms; Ti-Ta alloy;
Cold sprayed AA2024/Al2O3 metal matrix composites improved by friction stir processing: Microstructure characterization, mechanical performance and strengthening mechanisms
Keywords: مکانیسم های تقویت; Cold spray; Friction stir processing; Metal matrix composites; Phase transformation; Mechanical properties; Strengthening mechanisms;
Microstructure and mechanical properties of Ti-15Mo-xTiC composites fabricated by in-situ reactive sintering and hot swaging
Keywords: مکانیسم های تقویت; Ti-Mo; TiC particle; In situ reaction; Microstructure; Strengthening mechanisms;
Strengthening mechanisms in Fe-Al based ferritic low-density steels
Keywords: مکانیسم های تقویت; Low-density steel; Strengthening mechanisms; Mössbauer spectroscopy; Small angle X-Ray scattering (SAXS);
A novel strengthening effect of in-situ nano Al2O3w on CNTs reinforced aluminum matrix nanocomposites and the matched strengthening mechanisms
Keywords: مکانیسم های تقویت; In-situ synthesis; Carbon nanotubes-alumina whisker; Aluminum matrix nanocomposites (AMNCs); Microstructure; Strengthening mechanisms;
Microstructure and mechanical properties of the TiN particles reinforced IN718C composite
Keywords: مکانیسم های تقویت; TiN; IN718C; Nickel base composite; Microstructure; Mechanical properties; Strengthening mechanisms;
Interrelation between the Portevin Le-Chatelier effect and necking in AlMg alloys
Keywords: مکانیسم های تقویت; Portevin-Le Chatelier effect; Microstructures; Metallic material; Fracture mechanisms; Strengthening mechanisms;
Effects of grain refinement on the quasi-static compressive behavior of AISI 321 austenitic stainless steel: EBSD, TEM, and XRD studies
Keywords: مکانیسم های تقویت; AISI 321 austenitic stainless steel; Electron microscopy; Twinning; Phase transformation; Strengthening mechanisms; VPSC;
Development and strengthening mechanisms of bulk ultrafine grained AA6063/SiC composite sheets with varying reinforcement size ranging from nano to micro domain
Keywords: مکانیسم های تقویت; Ultrafine grained metal matrix composite; Cryorolling; Microstructure; Mechanical properties; Strengthening mechanisms;
Experimental procedure and simplified modeling for the high strain-rate and transient hardness evolution of aluminum AA1050
Keywords: مکانیسم های تقویت; Strengthening mechanisms; Constitutive behavior; Rate-dependent material; High strain-rate behavior; Impact testing;
Comparative investigation of microstructure, mechanical properties and strengthening mechanisms of Al-12Si/TiB2 fabricated by selective laser melting and hot pressing
Keywords: مکانیسم های تقویت; Selective laser melting; Al-12Si/TiB2; Hot pressing; Wetting behavior; Microstructure and mechanical properties; Strengthening mechanisms;
Combination of in-situ diffraction experiments and acoustic emission testing to understand the compression behavior of Mg-Y-Zn alloys containing LPSO phase under different loading conditions
Keywords: مکانیسم های تقویت; Strengthening mechanisms; Twinning; Anisotropic material; Mechanical testing; In-situ testing;
Microstructure evolution and strengthening mechanisms of spray-formed 5A12 Al alloy processed by high reduction rolling
Keywords: مکانیسم های تقویت; 5A12 Al alloy; spray forming; rolling; microstructure; strengthening mechanisms;
Increasing strength of a biomedical Ti-Nb-Ta-Zr alloy by alloying with Fe, Si and O
Keywords: مکانیسم های تقویت; β-Ti alloys; Orthopaedic implants; Elastic modulus; Strengthening mechanisms; Ductility; Ultrasound spectroscopy;
Strengthening effects of TiC particles and microstructure refinement in in situ TiC-reinforced Ti matrix composites
Keywords: مکانیسم های تقویت; Ti matrix composite; Mechanical characterization; Microstructure refinement; Precipitates; Strengthening mechanisms;
The multi-scale microstructure and strengthening mechanisms of Mo-12Si-8.5BxZr (at.%) alloys
Keywords: مکانیسم های تقویت; Mo-12Si-8.5B alloy; Zr addition; Multi-scale microstructure; Mechanical properties; Strengthening mechanisms;