Keywords: B. خواص مکانیکی در دمای محیط; A. Intermetallics, miscellaneous; B. Brittleness and ductility; B. Elastic properties; B. Electronic structure of metals and alloys; B. Mechanical properties at ambient temperature; E. Ab-initio calculations;
مقالات ISI B. خواص مکانیکی در دمای محیط (ترجمه نشده)
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Keywords: B. خواص مکانیکی در دمای محیط; A. Intermetallics,; miscellaneous; B. Brittleness and ductility; B. Elastic properties; B. Electronic structure of metals and alloys; B. Mechanical properties at ambient temperature; E. Ab-initio calculations;
Microstructure and mechanical properties of a forged β-solidifying γ TiAl alloy in different heat treatment conditions
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Creep; B. Mechanical properties at ambient temperature; B. Phase transformation; C. Thermomechanical treatment; D. Microstructure;
Ternary La-Al-C bulk metallic glasses
Keywords: B. خواص مکانیکی در دمای محیط; A. Ternary alloy systems; B. Glasses, metallic; B. Elastic properties; B. Mechanical properties at ambient temperature; C. Rapid solidification processing;
Bulk metallic glass composites ductilized by core-shell structured dual crystalline phases through controlled inoculation
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; B. Glasses, metallic; B. Mechanical properties at ambient temperature; D. Microstructure; D. Phase interfaces; F. Electron microscopy, transmission;
Microstructure and mechanical properties of a newly developed high strength Mg54.7Cu11.5Ag3.3Gd5.5Sc25 alloy
Keywords: B. خواص مکانیکی در دمای محیط; B. Alloy design; B. Glasses, metallic; B. Mechanical properties at ambient temperature; D. Microstructure;
Novel W-based metallic glass with high hardness and wear resistance
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Alloy design; B. Tribological properties; B. Mechanical properties at ambient temperature; C. Thin films; C. Coatings, intermetallic and otherwise
Oxygen segregation in the Zr-based bulk metallic glasses
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; B. Glasses, metallic; B. Mechanical properties at ambient temperature; D. Microstructure;
Structure and mechanical properties of as-cast Ti–Si alloys
Keywords: B. خواص مکانیکی در دمای محیط; B. Alloy design; B. Mechanical properties at ambient temperature; C. Casting; G. Biomedical applications
Effects of Co substitution for Fe on the glass forming ability and properties of Fe80P13C7 bulk metallic glasses
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Magnetic properties; B. Mechanical properties at ambient temperature; B. Thermal stability
Pseudoelastic behaviour of perforated NiTi shape memory plates under tension
Keywords: B. خواص مکانیکی در دمای محیط; A. Intermetallics, miscellaneous; B. Martensitic transformations; B. Mechanical properties at ambient temperature; B. Shape-memory effects; F. Mechanical testing; G. Shape-memory alloy applications
Thermal stability, magnetic and mechanical properties of Fe–Dy–B–Nb bulk metallic glasses with high glass-forming ability
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Thermal stability; B. Phase transformation; B. Mechanical properties at ambient temperature; B. Magnetic properties
High strain rate compressive behavior of Ti-based metallic glass matrix composites
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; B. Glasses, metallic; B. Mechanical properties at ambient temperature; F. Mechanical testing;
Thermal stability of an intermediate strength fully lamellar Ti-45Al-2Mn-2Nb-0.8Â vol.% TiB2 alloy
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Thermal stability; B. Mechanical properties at ambient temperature; F. electron microscopy, scanning; F. Electron microscopy, transmission;
Structural and mechanical stability of the nano-crystalline Ni–Ti (50.9 at.% Ni) shape memory alloy during short-term heat treatments
Keywords: B. خواص مکانیکی در دمای محیط; A. Nanostructured intermetallics (including preparation methods); B. Mechanical properties at ambient temperature; C. Heat treatment; D. Microstructure (as-cast. deformation-induced, recrystallization-induced); F. Microscopy, various; G. Biomedical applic
Ductility enhancement in Co–Fe–Ni alloys by microstructural control
Keywords: B. خواص مکانیکی در دمای محیط; B. Mechanical properties at ambient temperature; A. Ternary alloy systems; C. Heat treatment; D. Microstructure; F. Electron microscopy, transmission
On the subsurface deformation of two different Fe-based bulk metallic glasses indented by Vickers micro hardness
Keywords: B. خواص مکانیکی در دمای محیط; B. Brittleness and ductility; B. Glasses, metallic; B. Mechanical properties at ambient temperature; C. Rapid solidification processing; F. Mechanical testing;
Effect of Nb addition on microstructure evolution and nanomechanical properties of a glass-forming Ti–Zr–Si alloy
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Mechanical properties at ambient temperature; C. Rapid solidification processing; C. Nanocrystals; D. Microstructure; G. Biomedical applications
Correlation between microstructure and properties of fine grained Mo-Mo3Si-Mo5SiB2 alloys
Keywords: B. خواص مکانیکی در دمای محیط; A. Molybdenum silicides; A. Ternary alloy systems; C. Mechanical alloying and milling; B. Mechanical properties at ambient temperature; B. Mechanical properties at high temperatures; B. Oxidation;
Microstructural design and mechanical properties of a cast and heat-treated intermetallic multi-phase γ-TiAl based alloy
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Mechanical properties at ambient temperature; B. Mechanical properties at high temperatures; B. Phase transformation; C. Heat treatment; D. Microstructure;
On the transformation-induced work-hardening behavior of Zr47.5Co47.5Al5 ultrafine-grained alloy
Keywords: B. خواص مکانیکی در دمای محیط; B. Mechanical properties at ambient temperature; B. Work-hardening; C. Rapid solidification processing; F. Electron microscopy, scanning;
Microstructure and mechanical properties on aging behavior of Zn containing Mg-2Sn-0.4Mn alloy
Keywords: B. خواص مکانیکی در دمای محیط; B. Alloy design; B. Aging-hardening; Zn addition; B. Mechanical properties at ambient temperature; B. Mechanical properties at high temperature;
Enhancement of plastic deformation in FeCoNbB bulk metallic glass with superhigh strength
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Thermal properties; B. Mechanical properties at ambient temperature;
Microstructure and mechanical properties of large size Ti-43Al-9V-0.2Y alloy pancake produced by pack-forging
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; C. Isothermal forging; C. Heat treatment; D. Microstructure; B. Mechanical properties at ambient temperature; B. Mechanical properties at high temperatures;
Effects of ultrasonic vibration and manganese on microstructure and mechanical properties of hypereutectic Al-Si alloys with 2%Fe
Keywords: B. خواص مکانیکی در دمای محیط; A. Aluminides; B. Mechanical properties at high temperatures; B. Mechanical properties at ambient temperature; C. Casting; D. Microstructure;
Shear banding behavior and fracture mechanisms of Zr55Al10Ni5Cu30 bulk metallic glass in uniaxial compression analyzed using a digital image correlation method
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Mechanical properties at ambient temperature; B. Plastic deformation mechanisms; F. Mechanical testing;
Structure and properties of Ti-Al-Si-X alloys produced by SHS method
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; A. Titanium silicides; B. Mechanical properties at ambient temperature; B. Oxidation; C. Reaction synthesis;
Room temperature mechanical properties of polycrystalline YbAl3, a promising low temperature thermoelectric material
Keywords: B. خواص مکانیکی در دمای محیط; A. Aluminides, miscellaneous; B. Elastic properties; B. Mechanical properties at ambient temperature;
A novel powder metallurgy processing approach to prepare fine-grained Ti-rich TiAl-based alloys from pre-alloyed powders
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Mechanical properties at ambient temperature; C. Mechanical alloying and milling; D. Powder metallurgy, including consolidation; E. Sintering;
Microstructure and mechanical behavior of directionally solidified Fe35Ni15Mn25Al25
Keywords: B. خواص مکانیکی در دمای محیط; A. Nanostructured intermetallics; B. Mechanical properties at ambient temperature; F. Atom microprobe; F. Electron microscopy, transmission;
Characterization of the Fe-rich corner of Al-Fe-Si-Ti
Keywords: B. خواص مکانیکی در دمای محیط; A. Multiphase intermetallics; A. Laves phases; A. Iron aluminides; B. Phase diagrams; B. Mechanical properties at ambient temperature;
Mechanical behavior of metallic glass reinforced nanostructured tungsten composites synthesized by spark plasma sintering
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; B. Mechanical properties at ambient temperature; C. Mechanical alloying and milling; C. Powder metallurgy; C. Sintering
A Ti–Zr–Be–Fe–Cu bulk metallic glass with superior glass-forming ability and high specific strength
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Thermal properties; B. Mechanical properties at ambient temperature; C. Casting
Influence of temperature during pressure-assisted induction sintering (PAIS) on structure and properties of the Fe40Al intermetallic phase
Keywords: B. خواص مکانیکی در دمای محیط; A. Iron aluminides; B. Phase identification; B. Mechanical properties at ambient temperature; C. Reaction synthesis
Enhancement of ductility in B2-type Zr–Co–Ni alloys with deformation-induced martensite and microcrack formation
Keywords: B. خواص مکانیکی در دمای محیط; B. Mechanical properties at ambient temperature; B. Martensitic transformations; B. Brittleness and ductility; D. Microstructure; F. Electron microscopy, scanning
Ductility and toughness of cold-rolled metallic glasses
Keywords: B. خواص مکانیکی در دمای محیط; B. Brittleness and ductility; B. Glasses, metallic; B. Mechanical properties at ambient temperature; B. Fracture toughness; C. Rolling
Microstructure evolution and mechanical properties of transient liquid phase (TLP) bonded joints of TiAl intermetallics
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Bonding; C. Joining; D. Microstructure; B. Mechanical properties at high temperatures; B. Mechanical properties at ambient temperature
Effect of chromium on elastic and plastic deformation of Fe3Al intermetallics
Keywords: B. خواص مکانیکی در دمای محیط; A. Iron aluminides (based on Fe3Al); B. Alloy design; B. Work-hardening; B. Mechanical properties at ambient temperature; G. Environmental applications
Deformation behavior of a Zr-based bulk metallic glass under a complex stress state
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses; metallic; B. Mechanical properties at ambient temperature; B. Brittleness and ductility; B. Surface properties; F. Electron microscopy; scanning;
The microstructure and tribological property of in-situ Al2O3/Fe–25Al composites in argon atmosphere
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; A. Iron aluminides; B. Tribological properties; B. Mechanical properties at ambient temperature; C. Mechanical alloying and milling; C. Sintering
Refinement of lamellar microstructures by boron incorporation in GE-TiAl alloys processed by Spark Plasma Sintering
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Mechanical properties at ambient temperature; C. Powder metallurgy, including consolidation; F. Microscopy, various
Formation and investigation of the structure and mechanical properties of bulk metallic glassy composite (Ti–Zr)–(Cu–Ni–Co) alloys
Keywords: B. خواص مکانیکی در دمای محیط; A. Composites; B. Glasses, metallic; B. Brittleness and ductility; B. Mechanical properties at ambient temperature; C. Casting
Enhanced plasticity by introducing icosahedral medium-range order in ZrCuNiAl metallic glass
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Mechanical properties at ambient temperature; B. Fracture toughness; F. Electron microscopy, tansmission
Tensile behavior of amorphous/nanocrystalline ZrCu/Cu multilayered films with graded interfaces
Keywords: B. خواص مکانیکی در دمای محیط; A. Nanostructured intermetallics; B. Glasses, metallic; B. Mechanical properties at ambient temperature; C. Thin films; F. Mechanical testing
Mg-based bulk metallic glass composite with high bio-corrosion resistance and excellent mechanical properties
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Corrosion; B. Mechanical properties at ambient temperature;
Mechanical behavior of Zr-based and Ta-based micropillars
Keywords: B. خواص مکانیکی در دمای محیط; A. Multiphase intermetallics; B. Glasses, metallic; B. Mechanical properties at ambient temperature; C. Vapour deposition (physical and chemical); F. Electron microscopy, transmission
Micro forming and deformation behaviors of Zr50.5Cu27.45Ni13.05Al9 amorphous wires
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses; B. Metallic; B. Mechanical properties at ambient temperature; C. Rapid solidification processing
Influence of Y/CeMM ratio on the microstructure and mechanical properties of Mg95Zn2(Y,CeMM)3 alloys
Keywords: B. خواص مکانیکی در دمای محیط; A. Ternary alloy systems; B. Mechanical properties at ambient temperature; B. Plastic deformation mechanisms; C. Extrusion; D. Recrystallization and recovery;
A TiAl based alloy with excellent mechanical performance prepared by gas atomization and spark plasma sintering
Keywords: B. خواص مکانیکی در دمای محیط; A. Titanium aluminides, based on TiAl; B. Mechanical properties at ambient temperature; C. Powder metallurgy, including consolidation; F. Electron microscopy, transmission; F. Electron microscopy, scanning
Induced multiple heterogeneities and related plastic improvement by laser surface treatment in CuZr-based bulk metallic glass
Keywords: B. خواص مکانیکی در دمای محیط; B. Glasses, metallic; B. Mechanical properties at ambient temperature; B. Precipitates; C. Laser processing; D. Microstructure;