Thermal mechanical processing of press and sinter Al-Cu-Mg-Sn-(AlN) metal matrix composite materials

Keyphrases

• Press-and-sinter 100%
• Metal Matrix Composites 100%
• Thermomechanical Processing 100%
• Mg-Sn 100%
• Al-Zn-Mg-Cu 100%
• Flow Behavior 100%
• Strain Rate 66%
• Temperature Rate 66%
• Thermal-mechanical 66%
• Alloying System 66%
• Processing Parameters 33%
• Powder Metallurgy 33%
• Mechanical Response 33%
• Ceramic Particles 33%
• Powder Metallurgy Method 33%
• Mechanical Testing 33%
• Sintered Aluminum 33%
• Grain Evolution 33%
• Sintered Preform 33%
• Electron Backscatter Diffraction 33%
• Hot Compression 33%
• Full Densification 33%
• Varying Condition 33%
• Condition Variables 33%
• Gleeble 3500 33%
• Aluminum Powder Metallurgy 33%
• Base Alloy 33%
• Zener-Hollomon 33%
• Workability 33%
• Sintered Compacts 33%
• Sintered Density 33%
• Aluminum Matrix Composites 33%
• Optical Metallography 33%
• Material Formulation 33%
• Nitrides 33%
• Industrial Technology 33%
• Constituent Analysis 33%
• Ceramic Particulates 33%

Engineering

• Composite Material 100%
• Flow Behavior 100%
• Metal Matrix Composite 100%
• Strain Rate 66%
• Powder Metallurgy 66%
• Alloy System 66%
• Test System 33%
• Densification 33%
• Atmospheric Aerosol 33%
• Mechanical Response 33%
• Produce Aluminum 33%
• Ceramic Particle 33%
• Processing Parameter 33%
• Aluminum Powder Metallurgy 33%
• Hot Pressing 33%
• Metallography 33%
• Aluminum Metal 33%
• Nitride 33%
• Base Alloy 33%
• Forging 33%

Material Science

• Composite Material 100%
• Powder Metallurgy 100%
• Metal Matrix Composite 100%
• Aluminum Nitride 100%
• Mechanical Processing 100%
• Strain Rate 66%
• Aluminum 66%
• Density 33%
• Forging 33%
• Mechanical Testing 33%
• Electron Backscatter Diffraction 33%
• Metallography 33%