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Study of alloys modification by nanomaterials
K. B. Borodyanskiy
, M. I. Zinigrad
, Rector L.I. Leont’ev
Ariel University
Department of Chemistry and Material Sciences
Russian Academy of Sciences
National University of Science and Technology "MISiS"
Research output
:
Contribution to journal
›
Article
›
peer-review
2
Scopus citations
Overview
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Keyphrases
Nanomaterials
100%
High-resolution Transmission Electron Microscopy (HRTEM)
100%
Strengthening Mechanism
100%
Alloy Modification
100%
Elongation at Fracture
100%
Nanotechnology
50%
Materials Science
50%
Performance Improvement
50%
Electron Microscopy Studies
50%
Multi-walled Carbon Nanotubes (MWCNTs)
50%
Composite Materials
50%
Mechanical Properties
50%
High Concentration
50%
Grain Boundary
50%
Enhanced Properties
50%
Performance Enhancement
50%
Beta-blockers
50%
Further Application
50%
Tin Oxide Nanoparticles
50%
Nanoparticle Enhancement
50%
Pure Copper
50%
Mechanical Performance
50%
Al Alloy
50%
Ductility
50%
Alloying Process
50%
Ceramic Nanoparticles
50%
Tensile Test
50%
Grain Size Strengthening
50%
Foundry Industry
50%
Copper Modification
50%
Cast Aluminum Alloy
50%
Metal Casting Processes
50%
Mechanical Properties Testing
50%
Hypoeutectic
50%
Dislocation Movement
50%
Different Nanoparticles
50%
Microstructural Evaluation
50%
Engineering
Transmissions
100%
Nanoparticle
100%
Strengthening Mechanism
100%
High Resolution
100%
Nanomaterial
100%
Test Result
50%
Composite Material
50%
Carbon Nanotube
50%
Al Alloy
50%
Ultimate Tensile Strength
50%
Dislocation Movement
50%
Strengthening (Metal)
50%
Ceramic Nanoparticles
50%
Pure Copper
50%
Metal Casting
50%
Grain Boundary
50%
Alloying
50%
Casting Process
50%
Aluminum Castings
50%
Material Science
Nanocrystalline Material
100%
Nanoparticle
100%
High-Resolution Transmission Electron Microscopy
66%
Mechanical Strength
66%
Grain Size
33%
Carbon Nanotube
33%
Composite Material
33%
Alloying
33%
Ultimate Tensile Strength
33%
Metal Casting
33%
Grain Boundary
33%
Cast Aluminum Alloy
33%