I will acquire these skills.
To design boilermaking products, metal structures and industrial pipeline plants.
To plan, programme and control production based on the documentation and specifications relating to the process of the products to be manufactured.
To ensure management and product quality
To oversee systems for occupational hazard prevention and environmental protection.
| Syllabus | Number of hours | Academic year |
|---|---|---|
| Graphic representation of mechanical manufacturing | 165 | 1 |
| Definition of metal construction processes | 165 | 1 |
| Machining, cutting and forming processes in metal construction | 198 | 1 |
| Joining and assembly processes in metal construction | 198 | 1 |
| Personal itinerary to employability I | 120 | 1 |
| Programming of automatic mechanical manufacturing systems | 100 | 1/2 |
| Metal construction design | 280 | 2 |
| Production programming | 120 | 2 |
| Technical English | 40 | 2 |
| Business and initiative | 60 | 2 |
What employment prospects can I expect to have?
Metal construction technician
Officer in charge of metal construction manufacture
Officer in charge of metal construction fitters
Design draughtsman in boilermaking and metal structures
CAD (computer assisted design)-based boilermaking and metal structure technician
Technical designer in boilermaking and structures
Automated mechanical manufacturing systems programmer
Mechanical manufacturing production programmer
Pipework development technician
Head of a metal construction and assembly plant
What academic prospects do I have?
Another cycle of higher vocational training, with the possibility of validating professional modules in accordance with the regulations in force.
A professional specialization course.
A university degree with the possibility of validating professional modules in accordance with the regulations in force.