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Lecture
Failure Modes in MicroNanosystems: Understanding Fatigue and Fracture Strength
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Fracture Mechanics: Introduction and Crack Growth Analysis
Covers the basics of fracture mechanics, including crack shape and growth analysis.
Fracture and Toughness of Materials
Covers stress intensity, fracture, and toughness of materials, including the behavior of ductile and brittle materials.
Cyclic Deformation and Fatigue
Explores cyclic deformation, fatigue, S-N curves, and factors influencing fatigue behavior in mechanical engineering.
Materials Properties and Limiting Behavior
Explores materials properties, failure criteria, stress-strain curves, and fracture strength.
Crack Tip Plasticity in Materials
Explores crack tip plasticity in materials, emphasizing the importance of the plastic zone in crack resistance.
Fracture Mechanics: Energy Analysis
Explores energy analysis in fracture mechanics, emphasizing unstable crack growth and the importance of compliance in structural behavior.
Cohesive Zone in Fracture Mechanics
Explores crack-tip energy dissipation, the Cohesive Zone concept, and Atomistic Cohesive Zone Law in fracture mechanics.
Fracture Mechanics: Cohesive Zone Model
Explores crack-tip energy dissipation, cohesive zone model analysis, small-scale yielding, stress fields near crack tips, and atomistic stress results.
Fracture Mechanics: Materials and Testing
Covers fracture mechanics basics, challenges in testing materials, and the Essential Work of Fracture method.
Fracture Mechanics: Cohesive Zone Modeling
Explores crack-tip energy dissipation, cohesive zone modeling, stress intensity, and small-scale yielding in fracture mechanics.
