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INTRODUCTION TO PERIDYNAMICS (didattica di eccellenza)
01HOVRO
A.A. 2022/23
Course Language
Inglese
Degree programme(s)
Doctorate Research in Ingegneria Meccanica - Torino
Course structure
| Teaching | Hours |
|---|---|
| Lezioni | 12 |
Lecturers
| Teacher | Status | SSD | h.Les | h.Ex | h.Lab | h.Tut | Years teaching |
|---|---|---|---|---|---|---|---|
| Pagani Alfonso | Professore Ordinario | IIND-01/D | 2 | 0 | 0 | 0 | 1 |
Co-lectures
Context
| SSD | CFU | Activities | Area context | *** N/A *** | 2 |
|---|
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The nonlocal peridynamic theory provides the capability for improved modeling of progressive failure in materials and structures. This course starts with an overview of the Peridynamic (PD) theory and derivation of its governing equations based on the balance laws of classical continuum mechanics. Subsequently, it presents derivation of the PD differential operator (PDDO) which enables the PD form of the governing equations of classical continuum mechanics. This course presents not only the theoretical basis but also its numerical implementation for the solution of governing field equations.
The primary objective of the course is to acquaint students with the concept of PD, and derivation of the bond-based and state-based PD equilibrium equations through the Euler-Lagrange equations. Also, it acquaints the students with the derivation of PD differential operator, and its use in the construction of governing equations for elastic and elastic-plastic material response as well as the coupling of PD with the finite element analysis.
The nonlocal peridynamic theory provides the capability for improved modeling of progressive failure in materials and structures. This course starts with an overview of the Peridynamic (PD) theory and derivation of its governing equations based on the balance laws of classical continuum mechanics. Subsequently, it presents derivation of the PD differential operator (PDDO) which enables the PD form of the governing equations of classical continuum mechanics. This course presents not only the theoretical basis but also its numerical implementation for the solution of governing field equations.
The primary objective of the course is to acquaint students with the concept of PD, and derivation of the bond-based and state-based PD equilibrium equations through the Euler-Lagrange equations. Also, it acquaints the students with the derivation of PD differential operator, and its use in the construction of governing equations for elastic and elastic-plastic material response as well as the coupling of PD with the finite element analysis.
In presenza
On site
Presentazione orale
Oral presentation
P.D.2-2 - Maggio
P.D.2-2 - May
10 al 13 luglio ore 9-00-12.00 c/osala Ferrari II piano Dimeas
10 to 13 July 9 a.m.-12 noon in the Ferrari Hall II floor Dimeas.