Mechanical Design Engineering courses S7

General Data
Academic program	ECAM ENGINEERING PROGRAM		Module Manager(s): HAJJAR Ahmad
Module type	Teaching Unit
Credits (ECTS)	12
Maximum number of students	250
Total duration :110h00	Period : SEMESTER 7	Language : : English

Learning outcomes
The objective of this course is to learn how to design a welded frame. For this, students need to learn the design rules in welding, and the use of CREO for that purpose<br><br>The student should be able to:<br>- solve the equations of the free vibration of a beam, according to the boundary conditions and the initial conditions,<br>- solve the equations of the forced vibration of a beam, as a function of the boundary conditions and the imposed load or displacement conditions,<br>- interpret the motion obtained in terms of modal contributions, to make the link between the vibration of a system and its frequency response or its impulse response,<br>- make the link between the vibration of a system and the stresses inside the material.<br>- interpret the results of a vibratory study carried out using finite element calculation software, in particular the effects of a slight modification made to the studied system.<br><br>Know and practice a unique and innovative R&D methodology "Designed & made in ECAM" which allows to reduce the "Time to Market" while respecting all speicification requirements (quality, costs, etc ...)<br><br>- Acquire basic knowledge of polymer materials.<br>- Understand the mechanical, thermal, chemical behaviors of polymers.<br>- Be able to establish material spécifications.<br><br>This course is a continuation of Structural Analysis 1 where the students work on FEM-based commercial software (e.g. Ansys) in order to perform numerical simulations and solve problems in a wide range of applications, with emphasis on non-linear behavior and multi-physics analysis.

Learning outcomes

The objective of this course is to learn how to design a welded frame. For this, students need to learn the design rules in welding, and the use of CREO for that purpose The student should be able to: - solve the equations of the free vibration of a beam, according to the boundary conditions and the initial conditions, - solve the equations of the forced vibration of a beam, as a function of the boundary conditions and the imposed load or displacement conditions, - interpret the motion obtained in terms of modal contributions, to make the link between the vibration of a system and its frequency response or its impulse response, - make the link between the vibration of a system and the stresses inside the material. - interpret the results of a vibratory study carried out using finite element calculation software, in particular the effects of a slight modification made to the studied system. Know and practice a unique and innovative R&D methodology "Designed & made in ECAM" which allows to reduce the "Time to Market" while respecting all speicification requirements (quality, costs, etc ...) - Acquire basic knowledge of polymer materials. - Understand the mechanical, thermal, chemical behaviors of polymers. - Be able to establish material spécifications. This course is a continuation of Structural Analysis 1 where the students work on FEM-based commercial software (e.g. Ansys) in order to perform numerical simulations and solve problems in a wide range of applications, with emphasis on non-linear behavior and multi-physics analysis.