Characterization of phase changes during fabrication of copper alloys, crystalline and non-crystalline, prepared by mechanical alloying

Keyphrases

• Mechanical Alloying 100%
• Copper Alloy 100%
• Phase Change 100%
• Non-crystalline Materials 100%
• Transmission Electron Microscope 100%
• Amorphization 66%
• Microstrain 66%
• Cu-Ni 66%
• High-energy Milling 66%
• Solid Solution 66%
• CuZr 66%
• Pure Metals 66%
• Glass Forming Ability 66%
• Solid State 66%
• Williamson-Hall Method 66%
• Phase Transformation 33%
• Crystallite Size 33%
• X-ray Diffraction Pattern 33%
• Microstructural Changes 33%
• Zr Content 33%
• Lattice Parameter 33%
• Binary System 33%
• Cu-Cu 33%
• Microstructural Refinement 33%
• Binary Alloy 33%
• Ni-Zr 33%
• Milling Conditions 33%
• Work Study 33%
• Casting Process 33%
• Zirconium Content 33%
• Pure Nickel 33%
• Electron Microscopy Images 33%
• Mathematical Methods 33%
• Grinding Media 33%
• Abrasive 33%
• Microscope Observation 33%

INIS

• milling 100%
• fabrication 100%
• copper alloys 100%
• energy 60%
• transmission electron microscopy 60%
• microstructure 40%
• amorphous state 40%
• nickel 40%
• solids 40%
• solid solutions 40%
• metals 40%
• melting 40%
• glass 40%
• size 20%
• comparative evaluations 20%
• phase transformations 20%
• x-ray diffraction 20%
• alloys 20%
• copper 20%
• lattice parameters 20%
• equations 20%
• images 20%
• binary alloy systems 20%
• casting 20%
• deformation 20%
• grinding 20%
• raw materials 20%
• zirconium 20%
• abrasives 20%

Material Science

• Mechanical Alloying 100%
• Copper Alloy 100%
• Amorphization 66%
• Solid Solutions 66%
• X-Ray Diffraction 33%
• Crystallite Size 33%
• Diffraction Pattern 33%
• Lattice Constant 33%
• Binary Alloy 33%
• Zirconium 33%
• Phase Composition 33%