Completed
The Challenge - quantitative modeling of complex fracture and residual strength
Class Central Classrooms beta
YouTube videos curated by Class Central.
Classroom Contents
Nonlocal Theories for Free Crack Propagation in Brittle Materials
Automatically move to the next video in the Classroom when playback concludes
- 1 Intro
- 2 Outline of Course
- 3 Dynamic fracture of Brittle Solids
- 4 Dynamic fracture of Ceramic Solids
- 5 Classic theory of Dynamic Fracture Mechanics The theory of dynamic fracture is based on the notion
- 6 Continuum fracture modeling: top down approach
- 7 A classic modeling approach
- 8 On modeling multiple cracks: top down approach
- 9 Phase field methods: top down
- 10 Nonlocal dynamic models-peridynamics
- 11 Nonlocal models: bottom up approaches
- 12 Lattice models: bottom up approaches
- 13 Nonlocal dynamics as a multi-scale model
- 14 Computational Modeling Challenges: Predict the
- 15 Computational Challenge: Predict the
- 16 The Challenge - quantitative modeling of complex fracture and residual strength
- 17 Dynamics for a family of nonlocal models: a multscale model
- 18 Cohesive-dynamics in Peridynamic Formulation: Background: A general nonlinear-nonlocal formulation
- 19 Peridynamics simulation for Cohesive Evolution Different material phases
- 20 Multiscale model parameterized by length scale of non- local interaction E
- 21 Same small strain behavior for each
- 22 Cohesive Energy, Kinetic, Energy
- 23 Study the dependence of dynamics with respect to horizion size
- 24 Finite horizon model free process zone model: Collection of neighborhoods containing softening behavior