Thermo-mechanical properties of nano-scale freestanding aluminum films

Keyphrases

• Aluminum Film 100%
• Thermomechanical Properties 100%
• Temperature Control 50%
• Mechanical Properties 50%
• Thermal Field 50%
• Elevated Temperature 50%
• Substrate Effect 50%
• Young's Modulus 50%
• Nanoscale Thin Films 50%
• Time Dependence 50%
• Tensile Test 50%
• Ductility 50%
• Average Grain Size 50%
• Heat Dissipation 50%
• System Testing 50%
• Length-scale Dependence 50%
• Nanoscale Devices 50%
• Micro-electro-mechanical Systems 50%
• Yield Strength 50%
• Ultimate Strength 50%
• Superior Mechanical Properties 50%
• Elastic Relaxation 50%
• Nanostructured Thin Films 50%

Engineering

• Thin Films 100%
• Nanoscale 100%
• Aluminum Film 100%
• Length Scale 66%
• Experimental Result 33%
• Thermal Field 33%
• Young's Modulus 33%
• Elevated Temperature 33%
• Tensiles 33%
• Heat Losses 33%
• Combined Effect 33%
• Ultimate Strength 33%
• Average Grain Size 33%
• Micro-Electro-Mechanical System 33%

Material Science

• Aluminum 100%
• Film 100%
• Thin Films 100%
• Thermomechanical Property 100%
• Grain Size 33%
• Microelectromechanical System 33%
• Young's Modulus 33%