Experimental analysis in continuum and solid mechanics

Goals

(1) become aware of physical phenomena in mechanics, (2) know different techniques for measuring useful variables in mechanics (extensometry, accelerometry, photoelasticimetry, stroboscopy, etc.), (3) develop the practical implementation of theoretical concepts and thus promote their assimilation, (4) knowing how to validate experimental results: critical analysis of the quality and relevance of the measurements carried out, comparing experimental results and results from theoretical or numerical approaches, (5) know how to write a report of practical work and design office, (6) deepen and apply theoretical knowledge in a practical situation.

Programme

  • Discovery labs: Study of the resonance phenomena of a flexible structure. Photoelasticimetry: understanding and analysis of the phenomenon of stress-induced birefringence; isocline and isochromatic; comparison with an explicit solution.
  • Practical work Measurements and analyses: Determination of the eigenmodes of continuous elastic structures. Measurements by strain gauges with calculation of the tensor, application to the determination of the stress field, comparison and verification of the balance.
  • "Finite elements" design office: Calculation of structures using software. Interpretation of static and dynamic cases.

Sustainable development

Sustainable Development Goals

Level 1: Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.

DD&RS level 1

Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.

Study
4h
 
PW
16h
 

Responsibles

  • Baptiste CHOMETTE
  • Olivier DESSOMBZ
  • Romain RIEGER

Language

French

Keywords

Deformations, stresses, equilibrium, eigenmodes, resonance, static and dynamic measurements, experimental and numerical methods, finite element method