Keywords: ضرر هسته; Non-oriented electrical silicon steel; Precipitates; Grain size; Core loss;
مقالات ISI ضرر هسته (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: ضرر هسته; Recrystallization; Recovery; CRNO steel; Core loss; θ fiber; η fiber;
Keywords: ضرر هسته; Toroid cores; Co-precipitation; Magnetic properties; Core loss;
Keywords: ضرر هسته; Micro-motor; MEMS; Permanent magnet; Core loss; FEM;
Keywords: ضرر هسته; Fiber amplifier; Fusion splice; Core misalignment; Core loss; Efficiency; Beam quality;
Keywords: ضرر هسته; Switched reluctance machine; Core loss; Analytical model; Steinmetz equation
Keywords: ضرر هسته; High silicon steel; Texture; Grain size; Magnetic flux density; Core loss;
Keywords: ضرر هسته; Switched reluctance generator; Modeling; Core loss; Finite element analysis;
Keywords: ضرر هسته; Molybdenum permalloy powder cores; Compaction; Annealing treatment; Effective magnetic permeability; Insulation layer; Core loss
Keywords: ضرر هسته; Amorphous; Nanocrystalline; Soft magnetic alloy; Powder metallurgy; Magnetic powder core; High-frequency; Effective permeability; Core loss; DC-bias;
Novel Fe-based nanocrystalline powder cores with high performance prepared by using industrial materials
Keywords: ضرر هسته; Magnetic powder cores; Gas atomization; High frequency properties; Core loss;
Effect of Al content on magnetic domains of {1Â 0Â 0} grains in electrical steels
Keywords: ضرر هسته; Magnetic domain structure; Al addition; Core loss; Rearrangement of domains;
Fabrication of carbonyl iron powder/SiO2-reduced iron powder/SiO2 soft magnetic composites with a high resistivity and low core loss
Keywords: ضرر هسته; Soft magnetic composites; CIP/SiO2; Insulating; Resistivity; Core loss;
Facile synthesis of Fe-6.5wt%Si/SiO2 soft magnetic composites as an efficient soft magnetic composite material at medium and high frequencies
Keywords: ضرر هسته; Fe-6.5wt%Si alloy; Soft magnetic composite materials; Fluidized in-situ chemical vapor deposition; Spark plasma sintering; Core loss;
AC magnetic and magnetoimpedance properties of CoFe(NbMnNi)BSi amorphous ribbons
Keywords: ضرر هسته; Magnetic permeability; Core loss; AC hysteresis loop; Magnetic anisotropy; Coercivity; Magnetoimpedance;
Microstructural and core loss behaviors of addictive Fe-17â¯at% P based on Fe-3.5â¯wt% Si alloys in powder injection molding
Keywords: ضرر هسته; Fe-Si alloy; Fe-17â¯at% P; Core loss; Magnetic properties; Powder injection molding;
The influence of doping Ti on the microstructure and magnetic performances of Fe-6.5Si soft magnetic composites
Keywords: ضرر هسته; Soft magnetic composites; Doping Ti; Electrical resistivity; Coercivity; Core loss; Effective permeability;
Core loss analysis of Finemet type nanocrystalline alloy ribbon with different thickness
Keywords: ضرر هسته; Nanocrystalline; Ribbon thickness; Core loss; Domain structure;
Fabrication and growth mechanism of iron oxide insulation matrix for Fe soft magnetic composites with high permeability and low core loss
Keywords: ضرر هسته; Soft magnetic composites; Iron oxide; Insulating matrix; Permeability; Core loss;
Magnetic and microstructural properties of Fe3O4-coated Fe powder soft magnetic composites
Keywords: ضرر هسته; Soft magnetic composites; Core loss; Inorganic coating; Magnetic properties;
Dynamic magnetic characteristics and relaxation of Fe73.5Cu1Nb3Si15.5B7 nanocrystalline alloy under operating temperature and magnetizing frequency
Keywords: ضرر هسته; Nanocrystalline alloy; Dynamic magnetic characteristic; Core loss; Complex permeability; Magnetic relaxation;
Effect of Al content on magnetic properties of Fe-Al Non-oriented electrical steel
Keywords: ضرر هسته; Electrical steel; Al composition; Magnetic induction; Core loss; Loss separation;
Fabrication of FeSiBPNb amorphous powder cores with high DC-bias and excellent soft magnetic properties
Keywords: ضرر هسته; Amorphous powder cores; DC-bias properties; Core loss;
Dynamic magnetic characteristics of Fe78Si13B9 amorphous alloy subjected to operating temperature
Keywords: ضرر هسته; Amorphous alloy; Dynamic magnetic characteristic; Core loss; Complex permeability
Evolution of the insulation matrix and influences on the magnetic performance of Fe soft magnetic composites during annealing
Keywords: ضرر هسته; Soft magnetic composites; Insulation matrix; Fe3O4; Epoxy-modified silicone resin; Permeability; Core loss
Intergranular insulated Fe/SiO2 soft magnetic composite for decreased core loss
Keywords: ضرر هسته; Soft magnetic composite; Fe/SiO2 core–shell particles; Spark plasma sintering; Magnetic properties; Core loss
Enhanced magnetic properties of Fe soft magnetic composites by surface oxidation
Keywords: ضرر هسته; Soft magnetic composites; Magnetic flux density; Effective permeability; Core loss; Surface oxidation;
Magnetic and mechanical properties of the gradient FeSi alloys fabricated by magnetron sputtering
Keywords: ضرر هسته; Gradient FeSi alloy; Sputtering; Si penetration; Core loss; Mechanical property;
Synthesis, microstructure and magnetic properties of Fe3Si0.7Al0.3@SiO2 core–shell particles and Fe3Si/Al2O3 soft magnetic composite core
Keywords: ضرر هسته; Fe3Si0.7Al0.3@SiO2 core–shell particles; Fe3Si/Al2O3 soft magnetic composite core; Magnetic properties; Electrical properties; Core loss
Effect of iron particle size and volume fraction on the magnetic properties of Fe/silicate glass soft magnetic composites
Keywords: ضرر هسته; Soft magnetic composites; Sol–gel method; Magnetic properties; Core loss
Core-shell structured FeSiAl/SiO2 particles and Fe3Si/Al2O3 soft magnetic composite cores with tunable insulating layer thicknesses
Keywords: ضرر هسته; FeSiAl/SiO2 core-shell particles; Fe3Si/Al2O3 soft magnetic composite cores; Magnetic properties; Electrical properties; Core loss;
Effect of hot band grain size on development of textures and magnetic properties in 2.0% Si non-oriented electrical steel sheet
Keywords: ضرر هسته; Grain size; Texture; Non-oriented electrical steel; Recrystallization; Grain growth; Magnetic flux density; Core loss;
Microstructural and magnetic properties study of Fe–P rolled sheet alloys
Keywords: ضرر هسته; Fe–P alloys; Rolled sheets; Magnetic induction; Coercivity; Core loss; Microstructure
Core loss reduction in Fe-6.5Â wt.%Si/SiO2 core-shell composites by ball milling coating and spark plasma sintering
Keywords: ضرر هسته; Fe-6.5Â wt.%Si/SiO2; Core-shell structures; Magnetic properties; Core loss; Spark plasma sintering;
Effect of texture and grain size on magnetic flux density and core loss in non-oriented electrical steel containing 3.15% Si
Keywords: ضرر هسته; Non-oriented electrical steel; Texture; Grain size; Magnetic flux density; Core loss; Elliptical Gaussian distribution
Complex permeability and core loss of soft magnetic Fe-based nanocrystalline powder cores
Keywords: ضرر هسته; Nanocrystalline alloy; Soft magnetic core; Permeability; Core loss
No-load core loss prediction of PM generator at low electrical frequency
Keywords: ضرر هسته; Core loss; Variable speed; PM generator; Cable wound generator; Loss separation
AC magnetic properties of the soft magnetic composites based on Supermalloy nanocrystalline powder prepared by mechanical alloying
Keywords: ضرر هسته; Soft magnetic materials; Composite materials; Nanocrystalline materials; Permeability; Core loss
Microstructure and some magnetic properties of bulk amorphous (Fe0.61Co0.10Zr0.025Hf0.025Ti0.02W0.02B0.20)100âxYx (x=0, 2, 3 or 4) alloys
Keywords: ضرر هسته; Bulk amorphous alloy; Mössbauer spectroscopy; Magnetic susceptibility and its disaccommodation; Core loss; Approach to magnetic saturation;
Fe76Si9.6B8.4P6 glassy powder soft-magnetic cores with low core loss prepared by spark-plasma sintering
Keywords: ضرر هسته; Soft magnetic core; Core loss; Spark plasma sintering; Fe-based bulk glassy alloy
Reduction of core loss in non-oriented (NO) electrical steel by electroless-plated magnetic coating
Keywords: ضرر هسته; Electrical steel; Core loss; Coating; Electroless plating; Ni–Co–P
Effect of annealing prior to cold rolling on magnetic and mechanical properties of low carbon non-oriented electrical steels
Keywords: ضرر هسته; Non-oriented electrical steel; Microstructure; Core loss; Permeability; Ductility; Yield strength
High-frequency magnetic properties of soft magnetic cores based on nanocrystalline alloy powder prepared by thermal oxidation
Keywords: ضرر هسته; Nanocrystalline alloy; Thermal oxidation; Insulation; Soft magnetic core; Permeability; Core loss
The nanostructure of non-oriented electrical steel sheets
Keywords: ضرر هسته; Non-oriented electrical steel; Magnetic properties; Core loss; Nanostructure
Effect of initial grain size on texture evolution and magnetic properties in nonoriented electrical steels
Keywords: ضرر هسته; 75.50.−y; 75.50.BbNonoriented electrical steel; Core loss; Magnetic induction; Grain size; Texture; EBSD
The grain size effect on the magnetic properties in NiZn ferrite and the quality factor of the inductor
Keywords: ضرر هسته; 75.60.−d; 75.90.+w; 85.70.GeFerrite; Grain size; Core loss; Inductor; Quality value
The influence of dew point during annealing on the power loss of electrical steel sheets
Keywords: ضرر هسته; 75.50.Bb; 81.65.MqElectrical steel; Core loss; Oxidation; Surface
Magnetic losses evolution of a semi-processed steel during forced aging treatments
Keywords: ضرر هسته; 75.50Bb; 75.60.âd; Electrical steel; Core loss; Magnetic aging stress; Carbide precipitation;
Structure and soft magnetic properties of V-doped Finemet-type alloys
Keywords: ضرر هسته; Finemet alloy; Nanocrystalline alloy; Soft magnetic property; Core loss
A study on magnetic properties of high Si steel obtained through powder rolling processing
Keywords: ضرر هسته; 75.50.Bb; 81.40.Rs; 81.70.ExSilicon steel; Core loss; Induction; Anomaly factor