Single Crystal Plasticity Finite Element Analysis of Cu₆Sn₅ Intermetallic

Engineering & Materials Science

• Single crystals 93%
• Intermetallics 85%
• Plasticity 75%
• Crystals 60%
• Soldering alloys 59%
• Finite element method 50%
• Nanoindentation 48%
• Anisotropy 42%
• Shear stress 37%
• Plastic deformation 35%
• Nanoelectronics 28%
• Plastic flow 21%
• Crack initiation 19%
• Hardening 18%
• Yield stress 18%
• Chemical activation 18%
• Elastic moduli 17%
• Plastics 14%
• Testing 10%
• Experiments 7%

Chemical Compounds

• Solder 100%
• Plastic Deformation 67%
• Shear Stress 64%
• Yield Point 62%
• Single Crystalline Solid 57%
• Anisotropy 50%
• Grain Size 50%
• Crack Initiation 41%
• Shear Modulus 35%
• Size Effect 30%
• Shear 24%
• Flow 17%
• Volume 15%

Physics & Astronomy

• plastic properties 75%
• intermetallics 72%
• slip 68%
• single crystals 50%
• solders 27%
• critical loading 18%
• nanoindentation 16%
• shear stress 14%
• plastic deformation 14%
• grain size 12%
• crystals 11%
• shear 11%
• anisotropy 10%
• crack initiation 9%
• plastic flow 9%
• miniaturization 9%
• yield point 8%
• yield strength 8%
• hardening 7%
• finite element method 6%
• activation 6%
• plastics 6%
• saturation 5%
• curves 4%