Materials and Structures in their Environment (C-ENG MSE)


Master Supervisors: Anne-Laure Fauchille (M1), Giulio Sciarra (M2) and Panagiotis Kotronis

Programme Objectives

This Master programme aims to develop scientific and technological knowledge on materials and structures in both the public works and industrial sectors. It is characterized by a high degree of scientific specialisation. The programme focuses on the following specialised areas: numerical modelling, constitutive laws, structural reliability, advanced experimental techniques, durability, modern concrete, geomechanics and earthquake engineering.

The programme of study lasts two academic years - denoted by M1 and M2. The language of instruction is English.

Course Content - M1


30 ECTS Credits per semester.
Language of instruction: English

Autumn Semester Courses ECTS Spring Semester Courses ECTS
Continuum Mechanics 5 Physical Modelling 4
Fluid Mechanics 1 5 Constitutive Laws 5
Programming and Algorithmics 4 Imaging in Civil Engineering 5
Numerical Methods 4 Geotechnical Engineering 5
Vibration and Differential Equations 4 Concrete and Structures 5
Business Environment 4 Conferences and Initiation to Research 2
Modern Languages * 4 Modern Languages * 4

* 'French as Foreign Language' except for French native speakers who will study 'Cultural and Communicational English'

NB Course content may be subject to minor changes

Course Content - M2

30 ECTS Credits per semester.
Language of instruction: English

Autumn Semester Courses ECTS
Numerical Analysis 4
Mechanics of Porous Media 4
Durability and structural maintenance 4
Earthquake Engineering 4
Design and behaviour of modern concrete 4
Statistics of materials and structural reliability 4
Modern Languages * 4
Project 2

* 'French as Foreign Language' except for French native speakers who will study 'Cultural and Communicational English'

Spring Semester ECTS
Master thesis / internship                                    30

Examples of previous internships in industry:
  • Study of the deformation and temperature of cementitious materials by 3D instrumentation

Examples of previous internships in research labs:
  • Poro-mechanical modelling of soil and rock erosion
  • Dynamic effect of capillary pressure on drying / wetting of cementitious materials
  • Analysis and modelling of stochastic degradation fields on the Île de Ré bridge: impact of uncertainties on the diagnosis
  • Soil Structure interactions in earthquake engineering
NB Course content may be subject to minor changes

Skills developed

  • Organize and carry out research work to understand a physical phenomenon or a new problem in civil engineering
  • Organize, complete and validate an engineering approach to address a specific problem
In addition to the above specialism-specific skills, students will also develop more general skills:
  • Act with professionalism, be rigorous and autonomous
  • Identify models, perform simulation and analyse results
  • Communicate comprehensive results in a meaningful way
  • Undertake bibliographic surveys of international research and professional literature
  • Manage or be part of a project

Prospects for employment or further study


  • Sectors: Civil engineering
  • Fields: Research and Development
  • Positions: Research and Innovation Engineer (post PhD).



Published on March 25, 2017 Updated on February 18, 2019