Microstructure and mechanical properties of Ti_x(AlCrVNb)_100-x light weight multi-principal element alloys

Keyphrases

• Mechanical Properties 100%
• Microstructure Properties 100%
• Body-centered Cubic 100%
• Multi-principal Element Alloys 100%
• Ti60 50%
• Ti80 50%
• Low Density 25%
• Ductility 25%
• Microstructure 25%
• Grain Boundary 25%
• Structure-property Relationships 25%
• Yield Strength 25%
• Strengthening Mechanism 25%
• Modeling Results 25%
• Strength Degradation 25%
• Solid Solution Phase 25%
• Single Body 25%
• Nanosized Particles 25%
• Solid Solution Strengthening 25%
• Equilibrium and Non-equilibrium 25%
• Phase Constitution 25%
• Brittleness 25%
• As-cast State 25%
• Specific Strength 25%
• Ti Content 25%
• Compression Yield Strength 25%
• Vacuum Arc Melting 25%
• Thermodynamic Modeling 25%
• Room Temperature Tensile Properties 25%
• Atomic Size Difference 25%

Engineering

• Body-Centered Cubic 100%
• Alloy Element 100%
• Solid Solutions 50%
• Yield Point 50%
• Tensile Property 25%
• Nonequilibrium 25%
• Room Temperature 25%
• Strengthening Mechanism 25%
• Nanosized Particle 25%
• Atomic Size 25%
• Increasing Ti Content 25%
• Melting Point 25%
• Crystal Structure 25%
• Brittleness 25%

Material Science

• Multi-Principal Element Alloys 100%
• Density 75%
• Yield Stress 50%
• Solid Solutions 50%
• Tensile Property 25%
• Brittleness 25%
• Crystal Structure 25%
• Grain Boundary 25%