Effect of subtransus heat treatment on the microstructure and mechanical properties of additively manufactured Ti-6Al-4V alloy

INIS

• microstructure 100%
• alloys 100%
• heat treatments 100%
• mechanical properties 100%
• lasers 83%
• melting 83%
• levels 50%
• heating 50%
• martensite 33%
• cooling 33%
• layers 33%
• strains 33%
• fractures 33%
• dynamics 16%
• flexibility 16%
• manufacturing 16%
• powders 16%
• annealing 16%
• high temperature 16%
• values 16%
• fabrication 16%
• connections 16%
• anisotropy 16%
• losses 16%
• yield strength 16%
• growth 16%
• stability 16%
• compression strength 16%
• length 16%
• additives 16%
• deposition 16%

Material Science

• Microstructure 100%
• Temperature 100%
• Ti-6Al-4V 100%
• Heat Treatment 100%
• Selective Laser Melting 71%
• Martensite 28%
• Mechanical Strength 14%
• Three Dimensional Printing 14%
• Yield Stress 14%
• Compressive Strength 14%
• Anisotropy 14%
• Powder 14%
• Annealing 14%

Engineering

• High Cooling Rate 16%
• Full Annealing 16%
• Build Material 16%