Materials engineering and design is a branch of mechanical engineering concerned with the design and manufacture of any industrial product to go beyond the design and automation of machines and production lines necessary for the manufacture of these products and the methods and methods of controlling them to include programmable logic control systems, open-loop control systems and closed-loop systems using electrical or electro-hydraulic control systems Or electro-pneumatic driven by hydraulic power fluids and working by compressed air.
The Department of Materials Engineering and Design includes studies related to the design and production by traditional or computer methods of metallic and polymeric objects, molds of plastic and metal objects, electronic, electrical, and mechanical tools, and metal structures.
The use of modeling and simulation programs is one of the most important sciences on which the Department of Materials Engineering and Design is based in testing products and design and production studies in a hypothetical manner that simulates the final product in real operating conditions according to the physical and mechanical parameters of the studied element, with the aim of improving the design and developing the quality of the product, both in terms of structure or from The design and investment aspect.
This department is involved with all technical and classical engineering disciplines, as it is concerned with the study of common engineering drawing in all types of engineering, engineering mechanics (force analyzes), manufacturing methods, metallurgy, materials, tests, methods of operation, automation of production processes and industrial heating and ventilation systems, and participates with civil engineering in selecting Building materials, their specifications, standards, tests, and designs for metallic and industrial structures.
The Department of Materials Engineering and Design aims to provide graduates with the ability to:
♦ Solving big problems in the field of production engineering, design, or any other field as employees in the public or private sector
♦ Contributing worthily as members of engineers or other problem-solving teams and effectively communicating within the team and to clients.
♦ Advancement in their careers – including increased responsibilities and leadership roles.
♦ Continuous learning, whether in the official program, you graduated from or by participating in professional conferences and educational programs.
♦ Dealing responsibly when making professional and personal decisions – as examples of serving those around them.
♦ Continuing their education in leading postgraduate programs in specialized engineering fields to graduate researchers and experts.
♦ To have the ability to assume leadership and leadership positions.
♦ Work successfully and communicate effectively, both on an individual level and within multidisciplinary teams.
♦ Engineering drawing
♦ Writing technical reports
♦ production technology
♦ engineering mathematics
♦ Properties of Engineering Materials
♦ Engineering Economics
♦ project management
♦ assembly fee
♦ applied mechanics
♦ physical metallurgy
♦ Analysis of stress and resistance of materials
♦ Principles of thermodynamics
♦ Machine mechanics and its applications
♦ Fluid Mechanics
♦ Machine Design
♦ operating methods and equipment
♦ electronics and communications
♦ Computer applications in production engineering and design
♦ Machines Theory and Applications
♦ Heat and Mass Transfer
♦ Theory of Metal Formation
♦ Mechatronics and Robotics
♦ Segment theory and categorical number design
♦ mechanical vibrations
♦ workshop machine design
♦ Design of lifting and handling equipment
♦ Advanced engineering materials
♦ Analysis of faults and maintenance
♦ Analysis of production systems
♦ Design of production equipment and tools
♦ Quality Control
♦ Graduation Project
♦ Precise measurements
♦ Production and design engineering laboratory.