General Data | ||||
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Academic program | General Engineering Program | :
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Type d'EC | Classes (LIIAem06ECaoBN) | |||
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Status :
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Period :
SEMESTER 6 |
Education language :
French |
Learning Outcomes |
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The targeted skills are as follows: • Ability to use advanced digital CAD tools (Computer Aided Design: PTC Creo Parametric), • Skills in simulation (kinematics, dynamics and numerical), • Skills in augmented reality, • Skills in topological optimization, • Skills in rapid prototyping using the FabLab, • Knowledge of certain methods of problem solving, • Skills in project management (precision and punctuality in the delivery of projects), • Ability to work in a group, • Proactivity and flexibility. |
Content |
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This course allows students to improve their use of advanced digital CAD tools. The mechanical designer: • Designs mechanical systems, • Projects (draws), • Sizes the mechanical components, • Defines the technological characteristics, • Specifies the technical features, • Guides the production department. Each session includes a theoretical part and a practical part. The theoretical part allows the student to improve his knowledge in the following areas: • Advanced use of CAD software: brings together the computer tools that make it possible to carry out a geometric modeling of an object in order to be able to simulate tests with a view to manufacturing, • Advanced use of simulation tools (kinematics, dynamics, digital), • Advanced use of augmented reality tools, • Advanced use of topological optimization tools, • Advanced use of PLM software: corresponds to all the processes, technologies, software and methods put in place to properly manage the lifecycle of a product. The practical part allows the student to apply his knowledge through a team project comprising the following phases: • Complete modeling of the project proposed by the teacher, • Complete production of a prototype using the tools available in the FabLab, • Writing of a complete mechanical design report, • Presentation of a communication medium and promotion of the work carried out over the year. |
Pre-requisites / co-requisites |
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The knowledge that characterizes these training courses corresponds to the Physics Technology & Engineering Sciences program (PTSI) of the preparatory classes. It is a transversal approach to digital, mathematics, physics, electrical engineering, mechanics, technical drawing, materials science and technology as well as mechanical machining. |
Bibliography |
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• « Guide du Dessinateur Industriel » de André CHEVALIER, • « Introduction à la Conception Assistée par Ordinateur » de Giambiasi, • « Initiation à la Conception Assistée par Ordinateur » de Werner SOMMER, • « Computer Aided Design » de Jayanta SARKAR. |
Assessment(s) | |||
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N° | Nature | Coefficient | Observable objectives |
1 | Knowledge check relating to the theoretical part seen in class (see the detail of the theoretical part above). Knowledge check relating to the practical part seen in class (see the detail of the practical part above). | 1 | Project |