Description

a- Knowledge and Understanding Through knowledge and understanding, students will be able to:rna.1) Concepts and theories of mathematics and sciences, appropriate to the disciplinerna.3) Characteristics of engineering materials related to the disciplinerna.4) Principles of design including elements design, process and/or a system related to specific disciplines.rna.p.4) The constraints which mechanical power and energy engineers have to judge to reach at an optimum solution rnb- Intellectual Skills Through intellectual skills, students will be able to:rnb.6) Investigate the failure of components, systems, and processes.rnb.12) Create systematic and methodic approaches when dealing with new and advancing technology. rnc- Professional Skills Through professional and practical skills, students will be able to:rnc.2) Professionally merge the engineering knowledge, understanding, and feedback to improve design, products and/or servicesrnc.3) Create and/or re-design a process, component or system, and carry out specialized engineering designsrnc.5) Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret resultsrnc.6) Use a wide range of analytical tools, techniques, equipment, and software packages pertaining to the discipline and develop required computer programs.rnc.p.2) Prepare engineering drawings, computer graphics and specialized technical reports rnd- General Skills Through general and transferable skills, students will be able to:rnd.7) Search for information and engage in life-long self learning disciplinernd.9) Refer to relevant literature rn

Program

Bachelor degree in Mechanical Engineering (Automotive Engineering)

Objectives

  • To impart an appreciation of basic design considerations. rnTo give the students an awareness of the factors effecting design in relation to problems in the mechanical engineering applicationsrnrn

Textbook

Data will be available soon!

Course Content

content serial Description
1Introduction
2Stress in machine parts
3Stress, material ion and factor of safety
4Applications to design of machine elements
5Introduction to fatigue in metals.
6Stress concentration and design of members subject to fatigue loading
7Power screws types and applications / 7th week evaluation
8Bolted joints, brackets, and pressure vessel
9Welded and adhesive joints
10Welded joints specifications
11Spring types and applications – helical compression springs
12Design of different of springs / 12th week evaluation
13Miscellaneous design problem
14Miscellaneous design problem
15Miscellaneous design problem
16Final Examination
1Introduction
2Stress in machine parts
3Stress, material ion and factor of safety
4Applications to design of machine elements
5Introduction to fatigue in metals.
6Stress concentration and design of members subject to fatigue loading
7Power screws types and applications / 7th week evaluation
8Bolted joints, brackets, and pressure vessel
9Welded and adhesive joints
10Welded joints specifications
11Spring types and applications – helical compression springs
12Design of different of springs / 12th week evaluation
13Miscellaneous design problem
14Miscellaneous design problem
15Miscellaneous design problem
16Final Examination
1Introduction
2Stress in machine parts
3Stress, material ion and factor of safety
4Applications to design of machine elements
5Introduction to fatigue in metals.
6Stress concentration and design of members subject to fatigue loading
7Power screws types and applications / 7th week evaluation
8Bolted joints, brackets, and pressure vessel
9Welded and adhesive joints
10Welded joints specifications
11Spring types and applications – helical compression springs
12Design of different of springs / 12th week evaluation
13Miscellaneous design problem
14Miscellaneous design problem
15Miscellaneous design problem
16Final Examination
1Introduction
2Stress in machine parts
3Stress, material ion and factor of safety
4Applications to design of machine elements
5Introduction to fatigue in metals.
6Stress concentration and design of members subject to fatigue loading
7Power screws types and applications / 7th week evaluation
8Bolted joints, brackets, and pressure vessel
9Welded and adhesive joints
10Welded joints specifications
11Spring types and applications – helical compression springs
12Design of different of springs / 12th week evaluation
13Miscellaneous design problem
14Miscellaneous design problem
15Miscellaneous design problem
16Final Examination

Markets and Career

  • Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
  • Electrical power feeding for civil and military marine and aviation utilities.
  • Electrical works in construction engineering.

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