TIMETABLE TRAINING / WORK (IN WEEKS)

NUMBER OF HOURS OF COURSES BY SUBJECT (IN HOURS)

TEACHINGUNIT

Design, calculation and simulation : > Solid mechanics, mathematical and software tools for scientific calculations (FORTRAN-SCILAB)> Finite elements and structure calculation codes (ABAQUS). Fatigue. Reliability> Industrial calculation codes (HYPERMESH, RADIOSS, OPTISTRUCT)

Material behavior :> Homogeneous materials (metals and polymers, ceramics)> Composite materials. Thermal properties. Ageing, assembly > Material selection (CES). Shaping. > Eco-conception. Processes. Control.

Company sciences : > Company organisation, Human resources, Marketing, Project management, Communication, Visual communication

> Hygiene and safety, Norms and Quality tools, Industrial property, Safety and environmental management, Waste Management, Eco-conception and recycling

> Labour law, Company Law, Economics

> Management techniques, Managing a meeting, Project communication techniques, Management

> English, Bibliography, Company/training interaction

Material behaviour

Company sciences

Design, calculation and simulation

Pedagogical monitoring, conferences and company visits

Period in the company

ACADEMIC PROGRAMME

1RST YEAR

52 weeks : 800 h at school + time spent in the company

2ND YEAR

52 weeks : 600 h at school + time spent in the company

3RD YEAR

52 weeks : 400 h at school + time spent in the company

SEMESTER 5

SEMESTER 6

SEMESTER 7

SEMESTER 8

SEMESTER 10

SEMESTER 9

350 105 124 123 14

450 94 108 19206

450 111 114 2891

530 92 6476 76

665 86 56

535 75 7

7

92 86

SEPT. AUGUST

SEPT. AUGUST

SEPT. AUGUST

ADMISSION

• To be in possession of a level 2 or 3 qualification : BTS, DUT, science or technical degree or equivalent, in July.

• Being under 26 years old when signing the apprenticeship contract.

• Passing the entry tests and interviews.

• Signing an apprenticeship contract with a company.

CALENDAR

Deadline for applications

Interviews and eligibility

Signing of the apprenticeship contract

Beginning of the training

LOCATION

Bordeaux, a city with a future!

Recently listed as a UNESCO World Heritage Site, voted France’s 2nd city, Bordeaux and its suburbs offer numerous economical, industrial, cultural and patrimonial assets and together with its remarkable geographical location, between the river, the ocean and nature, the Bordeaux metropolis is considered as one of the most attractive regions in France.

Training certified by the C.T.I. (Engineering qualifications Committee)

Master degree delivered by INP ENSCBP (National Polytechnical Institute of Bordeaux) with a specialisation in “Structures and Composites” - in partnership with the Aquitaine I.T.I.I. (Institute of industrial engineers’ technics) and ENSEIRB MATMECA

MARCH

MARCH/APRIL

MAY/SEPT.

SEPTEMBER

WWW.CFAI-AQUITAINE.ORG

COMPOSITE STRUCTURES DESIGN AND

CALCULATION ENGINEER

OBJECTIVESTraining engineers will be able to:

• Write specifications for a mechanical system to be developed, taking into consideration its functional environment

• Design a mechanical system by offering technological solutions corresponding to the specifications

• Comprehend the development needs

• Select the most suitable metallic/composite material

• Write a calculation request

• Perform numerical simulations

• Analyse and interpret calculation results and write calculation notes

• Implement industrialisation or production in the context of collaborative work between several companies

• Manage the production of a system taking into account all the logistical elements

• Write a validation report, define the test procedures in accordance with the certification demands

• Manage the subcontracting work on the basis of quality and economy.

DEGREE QUALIFICATION THROUGH APPRENTICESHIP

INDUSTRIAL PROJECTS CARRIED OUT IN THE COMPANY During the last two years, an industrial project is realised for the the company, under the supervision of the apprenticeship tutor, accompanied by the pedagogical tutor.

PROJECTS EXAMPLES

> Weight reduction and re-design of a drone

> Layout of the landing gear of the A350-XWB

> Optimisation of a catamaran roof assembly

> Study of a tool for the production of composite propellers’ body

> Pre-forming of composite parts for the aeronautics industry

> Design and production of a bow carbon stabilizer

> Creation of a database of finite elements models for the simulation of basic characterization of new materials

> Fatigue characterization for mechanical systems

> Development of new fittings for cabins in planes

> Re-design to cost of equipment for the oil industry

> Laying-out of a ship’s hull by tests and calculation

> Design and development of urban equipment in composite materials

ADVANTAGES

IN COMPANY

TRAINING

A FREE AND REMUNERATED TRAINING

A HIGH RANKING AND REPUTABLE SCHOOL

10th

Out of 100

RANKING

TESTIMONY Julien GRAVÉ, apprentice at Fly-n-sense

“Following my DUT GMP, I was particularly interested in material characteristics and material resistance. This training incorporated all the fields I wanted to work in. During these 3 years as an apprentice, I was confronted with real industrial problems and especially in a field at the cutting edge. Despite the intense work in both the company and the school, the social aspect and the experience acquired in these two environments is matchless. Thanks to the training, I had the opportunity to continue my work as an engineer in the mechanical design office of the company where I was trained“

AN INTERNATIONAL DIMENSIONThe compulsory foreign internship is an engaging experience, essential both for an engineering career and to obtain the degree. It must last at least 8 weeks, and it can be split up.

40-hours English seminar during the first semester of the 3rd year.

32,5K€annual gross salary at the end of the training PROMO 1

JOB PROSPECTSThe Design/Composite structures engineer can intervene in design offices and industrial calculation offices (aeronautics, space, naval, defence, car industry, sports equipment …), R&D, engineering companies.

CALCULATION ENGINEER• Carries out pre-lay out and/or lay-out calculations

• Presents results and write supported reports

• Participates in the development of the measurement plan with the project engineers

DESIGN OFFICE ENGINEER• Creates technical solutions for products

• Supervises industrial designers

• Manages the potential subcontracting ; writing of the specifications, collaborating with suppliers

• Liaising with other departments: Production, Sales…

R&D ENGINEER• Imagines the products that will distinguish the company from its competitors

• Leads the research projects and the studies prior to an industrial application

TEST ENGINEER• Determines the test programmes

• Designs and optimises technical solutions

• Carries out measurements and tests

• Analyses and compares the results with those of the design office

• Writes and submits test reports

INFORMATION AND APPLICATION

The application forms are to be found on the website

www.itii-aquitaine.com

ou www.cfai-aquitaine.org40, av. Maryse Bastié - BP 75

33523 BRUGES CEDEX

05 5

6 0

4 9

9 7

0

Ecole Nationale Supérieure de Chimie, de Biologie et de Physique de Bordeaux

05 40 00 33 03scolarite.sc@enscbp.fr

Institut des Techniques d’Ingénieur de l’Industrie

05 56 57 44 44contact@itii-aquitaine.com

Industry’s Apprentices Training Center05 56 57 44 50

cfai@cfai-aquitaine.org

WHAT HAPPENSNEXT ?

TESTIMONY Alexandre MÊLÉ, apprentice at CAZACONFORT MEDICAL SAS

“Having had an unconventional background, this training allowed me to blossom thanks to the fact that I was able to work directly in the industry and apply my know-how whilst acquiring a solid engineering training. Today, this master has been recognised by my company which did everything to keep me which is really rewarding. I also feel ready to start my professional life, which would not have been the case with a more theoretical training”