Isothermal fatigue of an aluminide-coated single-crystal superalloy: Part II. Effects of brittle precracking

Material Science

• Aluminide 100%
• Crack Arrest 50%
• Crack Closure 50%
• Fatigue Behavior 50%
• Fatigue Crack 100%
• Fatigue of Materials 100%
• Nickel-Based Superalloys 50%
• Single Crystal 100%
• Superalloys 100%
• Surface (Surface Science) 50%

Engineering

• Crack Arrest 25%
• Crack Closure 25%
• Elevated Temperature 75%
• Fatigue Behavior 25%
• Fatigue Crack 50%
• Fatigue Life 50%
• Induced Oxidation 25%
• Inside Surface 25%
• Isothermal 100%
• Precracked Specimen 25%
• Recrystallized Grain 25%
• Retardation 25%
• Room Temperature 100%
• Single Crystal Superalloys 100%
• Test Temperature 25%

Keyphrases

• Aluminides 100%
• Brittle Coating 6%
• Crack Arrest 6%
• Crack Closure 6%
• Crack Growth Retardation 6%
• Elevated Temperature 18%
• Fatigue Behavior 6%
• Fatigue Crack 12%
• Fatigue Life 12%
• High Activity 6%
• Hollow Cylindrical Specimen 6%
• Induced Cracking 6%
• Inside Surface 6%
• Isothermal Fatigue 100%
• Oxidation Effect 6%
• Pre-crack 100%
• Recrystallized Grains 6%
• Room Temperature 25%
• Single Crystal Nickel-based Superalloy 6%
• Single Crystal Superalloy 100%
• Test Temperature 6%