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Fatigue (material)
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Related lectures (30)
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Fatigue: Material Response to Repeated Stress
Explores how materials respond to repeated stress cycles, leading to potential rupture and the distinction between high-cycle and low-cycle fatigue.
Fatigue of Materials: Basics and Applications
Explores material fatigue, from low-cycle to high-cycle fatigue, Wöhler curve, endurance limit, crack influence, Miner's rule, and Paris law.
Mechanical Behavior of Materials: Deformation & Fatigue
Explores deformation mechanisms, cyclic loading, and fatigue phenomena in materials.
Fatigue and Wear: Understanding Material Degradation
Explores fatigue, wear, stress cycles, and material degradation in materials science.
Fatigue and Wear: Introduction to Materials Science
Introduces fatigue and wear in materials science, exploring stress variations, endurance limits, and deformation during fatigue.
Cyclic Deformation and Recrystallization
Explores cyclic deformation, dislocation structures, fatigue resistance, and recrystallization kinetics.
Cyclic Deformation and Fatigue
Explores cyclic deformation, fatigue, S-N curves, and factors influencing fatigue behavior in mechanical engineering.
Deformation and Fatigue Phenomenon
Explores deformation and fatigue under cyclic stresses in materials, including plastic deformation, cyclic hardening, and the influence of environmental factors.
Materials Fatigue: Fracture and Toughness
Explores fatigue, fracture toughness, stress intensity, and crack propagation in materials.
Fatigue Verification Methods: Simplified Approach
Explores fatigue verification under variable loading using simplified methods and stress histograms, with a focus on road loading in Switzerland.
Advanced Metallurgy: Ni- & Ti-alloys
Delves into the advanced metallurgy of nickel and titanium alloys, turbine blade design, and fatigue crack behavior.
Fatigue Verification Formats: Simplified Methods
Explains fatigue verification formats under variable amplitude loading and the concept of damage equivalence factor.
Fatigue: Stress Amplitude and Endurance Limit
Explores stress amplitude, endurance limit, and fatigue in materials under cyclic loading.
Spring Design: Q&A Session
Delves into spring and articulated structure design, stress limits, fatigue tests, safety factors, and kinematic relations.
Fatigue in Materials
Covers the concept of fatigue in materials, highlighting how repeated stress can lead to failure at lower levels than static rupture.
Fracture Mechanics: Mixed-Mode Loading
Explores fracture mechanics under mixed-mode loading, covering crack growth modes, energy release rates, and material parameters.
Snow Mechanics: Avalanches
Explores snow mechanics, focusing on avalanches, weak layers, failure initiation, and stability tests.
Thermal Properties and Diffusion
Explores thermal properties, crack propagation, fatigue resistance, and material wear.
Fracture Mechanics: Introduction and Crack Analysis
Covers fracture mechanics fundamentals, including crack analysis and growth conditions.
Fracture of Materials: Revision
Covers fracture mechanics, stress intensity factor, rubber testing, and high-speed testing in materials.
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