Fracture behaviour of diffusion bonded bimaterial Ti-Al joints

Engineering & Materials Science

• Titanium 100%
• Ductile fracture 81%
• Metal foil 74%
• Metals 66%
• Plastic deformation 61%
• Aluminum 53%
• Aluminum foil 49%
• Brittle fracture 39%
• Debonding 38%
• Intermetallics 36%
• Load limits 35%
• Crack tips 34%
• Adhesion 31%
• Fracture toughness 30%
• Failure modes 30%
• Plastics 25%
• Substrates 24%
• Experiments 12%

Physics & Astronomy

• interlayers 62%
• triaxial stresses 46%
• titanium 42%
• aluminum 35%
• foils 30%
• plastic deformation 30%
• metals 26%
• load carrying capacity 25%
• metal foils 23%
• failure modes 20%
• crack tips 18%
• high strength 17%
• fracture strength 17%
• intermetallics 15%
• voids 15%
• adhesion 14%
• plastics 13%
• solid state 12%

Chemical Compounds

• Foil 77%
• Plastic Deformation 64%
• Diffusion 63%
• Metal 46%
• Brittle Fracture 38%
• Strength 33%
• Fracture Toughness 29%
• Purity 13%