Explore the programs and courses offered by Materials Engineering
Browse Programs Admission InformationMechanical engineering operates within an integrated value chain that extends from raw material extraction to distribution, encompassing the most sophisticated finished products. This sector can be divided into three main areas:
• Equipment (machines, production systems, and components)
• Manufacturing (subcontracting, tooling, and used goods)
• Precision (healthcare, optics, and measuring instruments). The numerous industrial activities related to mechanical engineering at both the national and regional levels necessitate specialized training in this field.
The Bachelor of Science in Mechanical Engineering (Materials Engineering) program aims to equip students with the knowledge necessary to understand and solve problems related to mechanical systems.
This program allows students to acquire a broad scientific background in engineering sciences, with a solid foundation in mechanics, mathematics, and scientific computing.
The program includes:
- Training students in methods of study and analysis, and understanding the fundamental laws and phenomena related to mechanical sciences (materials engineering).
- Providing essential complementary knowledge of chemistry, physics, and the structure of matter.
- Preparing students to acquire theoretical and practical methods for applying materials in various fields in general, and in mechanical engineering in particular.
The Bachelor of Science in Mechanical Engineering program is based on a solid, multidisciplinary foundation. During the first semesters, students study a range of core courses designed to develop their essential scientific and technical skills. These courses include mathematics, physics, chemistry (structure and properties of matter), computer science, waves and vibrations, as well as the fundamentals of mechanics and thermodynamics.
As students progress through the program, they delve into more specialized and advanced topics that are fundamental to the field of mechanical engineering (materials engineering). These topics include:
• Structure and properties of materials
• Study of material types and their properties (metals, polymers, ceramics, and composites)
• Methods of characterizing materials
• Mechanics of materials
• Durability and service performance
• Strength of materials
• Industrial drawing and metrology
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These advanced modules are supported by practical laboratory exercises and technical projects, enabling students to apply theoretical knowledge to real-world scenarios and preparing them for careers in the mechanical industry or for postgraduate studies.
Admission to the Bachelor of Science in Mechanical Engineering program is open exclusively to holders of a Bachelor of Science degree in one of the following fields: science, mathematics, or mechanical engineering. All applications are carefully reviewed by an academic committee to ensure that the applicant's undergraduate specialization aligns with the program requirements. This selection process ensures that students possess the fundamental knowledge necessary to succeed in this advanced technical field.
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