Vladislav A. Yastrebov     

CNRS Research Scientist in Mechanics and Physics of Solids
Centre des Matériaux, MINES Paris, PSL, CNRS UMR 7633, BP 87, 91003 Evry, France
E-mail: vladislav.yastrebov [at] minesparis.psl.eu             Phone: (00) 33 1 60 76 31 53
Vladislav Yastrebov
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Yastrebov: Teaching

Continuum Solid Mechanics

Practical work (Petites Classes), Ecole des Mines de Paris 2015-2021.

Non-Linear Computational Mechanics

Practical work, Ecole des Mines de Paris
2009, 2010, 2012

Lectures (Computational Contact Mechanics), Ecole des Mines de Paris
2014, 2015, 2016, 2017, 2018, 2021.

Download lectures
  • Computational Contact Mechanics (2018) [pdf]

Mechanics of Solids

Experimental mini-projects (Hertz contact), Ecole des Mines de Paris
2013, 2014, 2015, 2016

Open master course: Contact Mechanics and Elements of Tribology

  • Lectures and practical work (open online course), Centre des Matériaux (virtually), MINES ParisTech, 2022 (with Henry Proudhon)
  • Lectures and practical work (open online course), Centre des Matériaux (virtually), MINES ParisTech, 2021 (with Henry Proudhon)
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2020
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2019 (with Henry Proudhon)
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2018 (with Henry Proudhon and Andrei Shvarts)
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2017
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2016 (with Henry Proudhon)

Online Course 2022

  • Agenda 2022 [pdf]

  • Lecture 0: Foreword* [pdf]
  • Lecture 1: Industrial Applications* [pdf]
  • Lecture 2: Mechanical Contact* [pdf]
  • Flamant's problem solution* [pdf]
  • Solution for one-DoF frictional contact* [pdf]

  • Lecture 3: Contact and Mechanics of Materials* [pdf]
  • Lecture 4: Contact at Small Scales: Roughness* [pdf]
  • Practical work: integration of Flamant's solution* [zip]

  • Lecture 5: Wear and Fretting* [pdf]
  • Lecture 6: Computational Contact Mechanics* [pdf]
  • My book on computational contact mechanics [pdf]
  • Chapter on micromechanical contact (in French) [pdf]
  • Practical work: introduce contact in a simple finite element code [zip]

  • Lecture 7: Contact at Small Scales: Mechanics and Transport* [pdf]
  • Lecture 8: Lubrication and Sealing [pdf]
  • Practical work: integration of Flamant's solution to get displacement [python zip]

  • Concluding remarks [pdf]

Download extra files:

  • Solution for one-DoF frictional contact [pdf]
  • Flamant's problem solution [pdf]
  • Chapter on micromechanical contact [pdf]
  • Python script for calculation of stresses and displacements [zip]
  • Python script for stick-slip simulation [zip]
  • Z-set input files for contact simulations [zip]
  • Exam 2020 [pdf]

Open master course: Multiscale Simulation of Materials and Structures

with Samuel Forest, Benoit Appolaire, Vladimir Esin, Kais Ammar, Victor Derancourt.
  • Lectures and practical work, Centre des Matériaux, MINES ParisTech, 2016-2021

2022

Download lectures and practical work (2021):
  • Lecture 1: Molecular Dynamics I [pdf]
  • Lecture 2: Molecular Dynamics II [pdf]
  • Practical work [zip]
  • Practical work: fracture with LAMMPS [youtube]
  • Lecture 3: Dislocation Dynamics [pdf]

2021

Download lectures and practical work (2021):
  • Lecture 1: Molecular Dynamics I [pdf]
  • Lecture 2: Molecular Dynamics II [pdf]
  • Practical work [zip]
  • Practical work: fracture with LAMMPS [youtube]
  • Lecture 3: Dislocation Dynamics [pdf]

Archive 2020

  • Lecture 1: Molecular Dynamics I [pdf]
  • Lecture 2: Molecular Dynamics II [pdf]
  • Practical work [zip]
  • Practical work: fracture with LAMMPS [youtube]
  • Lecture 3: Dislocation Dynamics [pdf]

Archive 2018

  • Practical work: Gas-to-solid phase transformation in Ar [pdf]

Special course: Computational Approach to Micromechanical Contacts

  • Lectures and practical work, Ecole des Mines de Paris 2017
Download lectures:
  • Lecture 1: Linear finite element method [pdf]
  • Lecture 2: Viscoelasticity and non-linear finite element method [pdf]
  • Lecture 3: Continuus contact mechanics [pdf]
  • Lecture 4: Computational Contact Mechanics FEM [pdf]
  • Lecture 4b: Computational Contact Mechanics BEM [pdf]
  • Lecture 5: Roughness [pdf]
  • Lecture 6: Micromechanical Contact [pdf]
  • Lecture 7: Elastodynamic friction [pdf]

Copyright © Vladislav A. Yastrebov 2011-2022