Keywords: C. درمان گرما; A. Shape-memory alloys; A. Thin films and multilayers; B. In situ; B. Phase transformation; C. Heat treatment; C. Joining;
مقالات ISI C. درمان گرما (ترجمه نشده)
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Keywords: C. درمان گرما; B. Precipitates; B. Strain-aging; C. Heat treatment; F. Electron microscopy, transmission
Thermoelectric properties of Heusler-type Ru2VAl1âxGax alloys
Keywords: C. درمان گرما; A. Intermetallics; B. Thermoelectric properties; C. Heat treatment; D. Point defect; F. X-ray diffraction;
Effect of solution and aging treatment on the microstructure and tensile properties of SiCf/C/Mo/Ti2AlNb composites
Keywords: C. درمان گرما; A. Intermetallics (aluminides, silicides); B. Diffusion; B. Mechanical properties; C. Heat treatment; D. Interface;
Thermodynamic investigations in the Al-Fe system: Heat capacity measurements of three intermetallic phases
Keywords: C. درمان گرما; A. intermetallics (aluminides); B. thermodynamic properties; Thermal properties; C. heat treatment; F. differential scanning calorimetry;
Experimental determination of the phase diagrams of the Co-Ni-X (X = W, Mo, Nb, Ta) ternary systems using diffusion multiples
Keywords: C. درمان گرما; A. Intermetallics; B. Phase stability; C. Heat treatment; D. Microstructure; F. Electron microprobe; G. Aero-engine components;
Solubility of Ti in thermoelectric PbTe compound
Keywords: C. درمان گرما; A. Thermoelectric alloys; B. Density functional theory; C. Heat treatment; E. Abinitio calculations; F. Scanning electron microscope; F. X-ray diffraction;
Growth morphology and crystallography of precipitate in a new high-temperature structural intermetallic Ti–40Al–10Fe
Keywords: C. درمان گرما; A. intermetallics (titanium aluminides); B. phase transformation (crystallographic aspects kinetics and mechanisms); C. heat treatment; D. microstructure; E. electron microscopy, transmission
Stability of lamellar microstructures in a Ti–48Al–2Nb–2Cr alloy during heat treatment and its application to lamellae alignment as a quasi-seed
Keywords: C. درمان گرما; A. Aluminides; B. Thermal stability; C. Crystal growth; C. Heat treatment; D. Microstructure
Structural, magnetic and magnetoelastic properties of Laves-phase Tb0.3Dy0.6Nd0.1(Fe1-xCox)1.93 compounds (0 ≤ x ≤ 0.40)
Keywords: C. درمان گرما; A. Intermetallics; A. Functional alloys (magnetic); B. Magnetic properties; B. Anisotropy; B. Elastic properties; C. Heat treatment
Effect of aging and ball milling on the phase transformation of Ni50Mn25Ga17Cu8−xZrx alloys
Keywords: C. درمان گرما; A. Shape–memory alloys; B. Martensitic transformation; C. Heat treatment; C. Mechanical alloying and milling; D. Microstructure
Producing fully-lamellar microstructure for wrought beta-gamma TiAl alloys without single α-phase field
Keywords: C. درمان گرما; A. Titanium aluminides, based on TiAl; B. Phase transformation; C. Heat treatment; D. Microstructure;
Enhancement of creep properties and microstructural stability of intermetallic β-solidifying γ-TiAl based alloys
Keywords: C. درمان گرما; A. Intermetallics; B. Alloy design; B. Phase stability; B. Creep; C. Heat treatment; D. Microstructure
In-situ study of the time–temperature-transformation behaviour of a multi-phase intermetallic β-stabilised TiAl alloy
Keywords: C. درمان گرما; A. Titanium aluminides, based on TiAl; B. Order/disorder transformation; B. Phase transformation; C. Heat treatment; D. Microstructure; F. Diffraction
Experimental determination of the Ni–Cr–Ru phase diagram and thermodynamic reassessments of the Cr–Ru and Ni–Cr–Ru systems
Keywords: C. درمان گرما; A. Intermetallics; B. Phase stability; C. Heat treatment; D. Microstructure; F. Electron microprobe; G. Aero–engine components
Effect of Fe additions on microstructure and mechanical properties of a multi-component Nb–16Si–22Ti–2Hf–2Al–2Cr alloy at room and high temperatures
Keywords: C. درمان گرما; A. Intermetallics (aluminides, silicides); B. Fracture toughness; B. Mechanical properties; C. Casting; C. Heat treatment; D. Microstructure
The orthorhombic α″ martensite transformation during water quenching and its influence on mechanical properties of Ti-41Zr-7.3Al alloy
Keywords: C. درمان گرما; A. Titanium aluminides, based on Ti3Al; B. Martensitic transformations; C. Heat treatment; D. Martensitic structure; F. Mechanical testing
TEM analysis of 2205 duplex stainless steel to determine orientation relationship between M23C6 carbide and austenite matrix at 950 °C
Keywords: C. درمان گرما; A. Nanostructured intermetallics; B. Precipitates; C. Heat treatment; D. Microstructure; F. Microscopy, various;
Interphase precipitation of Fe2Hf Laves phase in a Fe–9Cr/Fe–9Cr–Hf diffusion couple
Keywords: C. درمان گرما; A. Laves phase; B. Alloy design, B. Phase transformation; C. Heat treatment; D. Microstructure
Experimental isothermal section at 1200 °C of V–Cr–Si system
Keywords: C. درمان گرما; A. Silicides; A. Ternary alloy systems; B. Phase diagram; C. Heat treatment; F. Diffraction; F. Electron microprobe
Improving the shear strength of Sn-Ag-Cu-Ni/Cu-Zn solder joints via modifying the microstructure and phase stability of Cu-Sn intermetallic compounds
Keywords: C. درمان گرما; A. intermetallics, miscellaneous; B. thermal stability; C. heat treatment; D. phase interfaces; D. microstructure; F. mechanical testing;
Effect of heat treatment on precipitate free zones and rollability of V55Ti30Ni15 alloys
Keywords: C. درمان گرما; D. Grain boundary; C. Heat treatment; D. Microstructure; C. Rolling
Laser welding of annealed Zr55Cu30Ni5Al10 bulk metallic glass
Keywords: C. درمان گرما; B. Glasses, metallic; C. Heat treatment; C. Welding; C. Nanocrystals; D. Microstructure;
Annealing effects on the microstructure and properties of bulk high-entropy CoCrFeNiTi0.5 alloy casting ingot
Keywords: C. درمان گرما; B. Alloy design; B. Thermal stability; C. Heat treatment; D. Microstructure
Structural and mechanical stability of the nano-crystalline Ni–Ti (50.9 at.% Ni) shape memory alloy during short-term heat treatments
Keywords: C. درمان گرما; 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: C. درمان گرما; B. Mechanical properties at ambient temperature; A. Ternary alloy systems; C. Heat treatment; D. Microstructure; F. Electron microscopy, transmission
Sigma phase evolution in Co-Re-Cr-based alloys at 1100 °C
Keywords: C. درمان گرما; A. Intermetallics, miscellaneous; B. Thermal stability; C. Heat treatment; D. Phase interfaces;
Accelerated precipitation in the AFA stainless steel Fe–20Cr–30Ni–2Nb–5Al via cold working
Keywords: C. درمان گرما; A. Laves phases; B. Phase identification; B. Precipitates; C. Heat treatment; C. Plastic forming, cold; D. Microstructure
Vacancy strengthening in Fe3Al iron aluminides
Keywords: C. درمان گرما; A. Iron aluminides; B. Yield stress; C. Heat treatment; F. Mechanical testing;
Microstructure evolution and mechanical behavior of as-cast, heat treated and directionally solidified Fe–15Al–10Nb alloys
Keywords: C. درمان گرما; A. Intermetallics, aluminides; B. Mechanical properties; C. Casting; C. Heat treatment; D. Microstructure
Microstructural design and mechanical properties of a cast and heat-treated intermetallic multi-phase γ-TiAl based alloy
Keywords: C. درمان گرما; 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;
Microstructural evolution and phase transition dependent on annealing temperature and carbon content for LaFe11.5Si1.5Cx compounds prepared by arc-melting
Keywords: C. درمان گرما; A. Magnetic intermetallics; B. Alloy design; C. Heat treatment; G. Magnetic applications;
Microstructure and mechanical properties of large size Ti-43Al-9V-0.2Y alloy pancake produced by pack-forging
Keywords: C. درمان گرما; 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;
Influence of annealing on NiTi shape memory alloy subjected to severe plastic deformation
Keywords: C. درمان گرما; A. Nanostructured intermetallics; B. Martensitic transformations; B. Shape-memory effects; C. Heat treatment; C. Plastic forming, cold;
Growth of magnesium silicide thin films on Si(100), Si(111) and SOI substrates during rapid thermal processing
Keywords: C. درمان گرما; A. Silicides, various; C. Heat treatment; C. Reaction synthesis; C. Thin films;
The microstructure evolution of directionally solidified Nb-22Ti-14Si-4Cr-2Al-2Hf alloy during heat treatment
Keywords: C. درمان گرما; A. Silicides, various; C. Near-net-shape manufacturing; C. Heat treatment; D. Microstructure
The effect of Zr addition on creep of Fe-30 at.% Al alloys
Keywords: C. درمان گرما; A. Iron aluminides; A. Laves phases; B. Creep; B. Precipitates; C. Heat treatment
Phase-field study for the pre-precipitation process of L12-Ni3Al phase in Ni–Al–V alloy
Keywords: C. درمان گرما; A. Nickel aluminides, based on Ni3Al; B. Precipitates; C. Heat treatment; D. Microstructure; E. Simulations, atomistic
Influence of aging treatments on microstructure and electrochemical properties in Mg–8.8Hg–8Ga (wt%) alloy
Keywords: C. درمان گرما; A. Multiphase intermetallics; B. Corrosion; C. Heat treatment; D. Microstructure; F. Electrochemical characterization
Microstructure study of Al 7050 alloy reprocessed by spray forming and hot-extrusion and aged at 121 °C
Keywords: C. درمان گرما; B. Age-hardening; B. Precipitates; C. Extrusion; C. Heat treatment; C. Rapid solidification processing; F. Microscopy
Phase formation in Mn-Si thin films during rapid thermal annealing
Keywords: C. درمان گرما; A. Intermetallics; C. Heat treatment; C. Thin films; F. Diffraction;
Ir-Hf-Zr ternary refractory superalloys for ultra-high temperatures-Phase and microstructural constitution
Keywords: C. درمان گرما; A. Multiphase intermetallics; B. Phase diagrams; C. Heat treatment; D. Microstructure;
Effect of hot-deformation on the microstructure of the Ti-Al-Nb-W-B alloy
Keywords: C. درمان گرما; A. Titanium aluminides, based on TiAl; C. Heat treatment; C. Isothermal forging; D. Microstructure;
The effects of alloying elements (Ta, Hf) on the thermodynamic stability of γ′-Co3(Al,W) phase
Keywords: C. درمان گرما; B. Alloy design; B. Phase diagrams; B. Precipitates; C. Heat treatment; D. Microstructure
Effect of aging treatment on low-cycle fatigue behavior of extruded Mg–8Al–0.5Zn alloys
Keywords: C. درمان گرما; A. Mg metal matrix; C. Heat treatment; E. Fatigue
Effects of scandium additions on mechanical properties of cellular Al-based foams
Keywords: C. درمان گرما; A. Rare-earth intermetallics; B. Precipitates; C. Heat treatment; D. Grain-boundary character distribution; E. Mechanical properties;
Effects of annealing treatment on properties of CoCrFeNiTiAlx multi-component alloys
Keywords: C. درمان گرما; C. Heat treatment; B. Mechanical properties; A. Intermetallics; B. Fracture mode; B. Work-hardening;
Dependence of the yield stress of Fe3Al on heat treatment
Keywords: C. درمان گرما; A. Iron aluminides (based on Fe3Al); B. Yield stress; C. Heat treatment; F. Mechanical testing
Suppressing the growth of Cu-Sn intermetallic compounds in Ni/Sn-Ag-Cu/Cu-Zn solder joints during thermal aging
Keywords: C. درمان گرما; A. Intermetallics, miscellaneous; B. Diffusion; B. Thermal stability; C. Heat treatment; D. Phase interfaces;
The influence of a small amount of Al and Ni nano-particles on the microstructure, kinetics and hardness of Sn-Ag-Cu solder on OSP-Cu pads
Keywords: C. درمان گرما; A. Intermetallics, miscellaneous; B. Phase transformation; C. Heat treatment; D. Microstructure; F. Electron microscopy, scanning;