Industrial and Manufacturing Engineering (IME) – 2017/2018 Bylaws
About
The Industrial and Manufacturing Engineering (IME) program is concerned with the design, manufacturing, analysis, improvement, and installation of integrated systems of people, materials, information, equipment, energy and money. Those systems include products, manufacturing processes, production systems, service systems and government units and agencies.
The IME program includes two interconnected majors in Industrial Engineering and Manufacturing Engineering. Industrial Engineering concentrates on designing, installing, and improving procedures and systems for effective and efficient operation of enterprises in production, service and government systems. Manufacturing engineers transform raw materials, parts and subassemblies into intermediate and final products and systems. Manufacturing Engineering involves designing processes to make high-quality, functional and economical products; developing facilities for efficient production systems; and utilizing advanced manufacturing technologies. Industrial and Manufacturing engineers work closely together in designing, planning and using state-of-the-art technologies in the production of the highest quality products while assuring a competitive level of productivity and competitive cost.
The IME curriculum provides a broad foundation in all engineering disciplines and in depth exposure to the current ideas, models, and methods of industrial engineering as well as manufacturing processes with emphasis on machining and product development. It also includes the important component of humanities and social sciences to help students understand the societal implications of their work.
This program is the choice of people with the aptitude and interest for careers that blend technology and people, and for those who see themselves as entrepreneurs and leaders in their future communities.
Vision
The vision of the IME program is to be nationally, regionally and internationally recognized as a leader in engineering education, for its academic excellence, superior reputation and in active experimental learning system.
Mission
- Prepare the program students to be life-long learners.
- Provide the students with the values needed to be valued citizens.
- Train the students to be successful entrepreneurs.
- E-JUST Engineering Undergraduate Bylaws – August 2017 Page 46/ 160
- Equip the students with the needed knowledge and skills to be professional engineers in the field of industrial and manufacturing engineering.
Objectives
The graduate of the program shall:
- Be able to apply knowledge of mathematics, science, and engineering in solving practical and industrial problems.
- Be able to apply the techniques, skills, and modern engineering tools necessary for engineering practice
- Have the capacity to design, manufacture and analyze, implement, and improve integrated systems that include people, materials, information, equipment, energy and money within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
- Have the professional skills and abilities needed to function on multidisciplinary teams and communicate effectively
- Embrace professional and ethical responsibilities and abide with related laws.
- Engaging and sustaining self and life-long learning.
- Have the ability to exercise leadership in multi-functional teams.
- Have the intellectual capacities needed to establish a sustainable business.
PROGRM OUTCOMES
General
- Be able to apply knowledge of mathematics, science, and engineering in solving practical and industrial problems.
- Be able to apply the techniques, skills, and modern engineering tools necessary for engineering practice
- Have the capacity to design, manufacture and analyze, implement, and improve integrated systems that include people, materials, information, equipment, energy and money within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
- Have the professional skills and abilities needed to function on multidisciplinary teams and communicate effectively
- Embrace professional and ethical responsibilities and abide with related laws.
- Engaging and sustaining self and life-long learning.
- Have the ability to exercise leadership in multi-functional teams.
- Have the intellectual capacities needed to establish a sustainable business.
Specialization outcomes (Industrial and Manufacturing)
- Apply the fundamental of manufacturing processes and economically select the most-up-to-date technology used by industry.
- Demonstrate the ability to design, manufacture, analyze, implement, and improve integrated systems that include people, materials, information, equipment and energy
- Assess and classify organizations: internal structure and management including human resources, financial resources and energy requirements.
- Adopt the key concepts of product and process quality and their importance in the production of goods and services.
- Solve a wide range of problems related to the analysis, design, and construction of production systems.
- Identify a range of solutions and critically evaluate and justify proposed design solutions.
- Apply the acquired skills in a service or industrial environment.
- Judge engineering decisions considering balanced costs, benefits, safety, quality, reliability, and environmental impact.
- Apply analytical techniques, numerical modeling and software packages in solving IME engineering problems.
PROGRAM COURSES
Common compulsory basic engineering courses for both Industrial Engineering and Manufacturing Engineering tracks.
|
IME 311 |
Seminar on IME |
|
IME 312 |
Operations Research (1) |
|
IME 313 |
Mechanical Design (1) |
|
IME 314 |
Conventional Machining Processes |
|
IME 315 |
Machining Workshop |
|
IME 316 |
Production and Operations Management |
|
IME 320 |
Project Based Learning on MTE |
|
IME 321 |
Statistical Quality Control |
|
IME 322 |
Metrology and Precision Engineering |
|
IME 323 |
Precision Engineering Lab |
INDUSTRIAL ENGINEERING TRACK
Compulsory Courses: (Each course weights 3 credit hours)
Industrial Engineering Track (Applied Engineering and Design):
Compulsory Courses: (Each course weights 3 Credit Hours)
|
IME 324 |
Mathematics (3) |
|
IME 325 |
Ergonomics and Human Factors Engineering |
|
IME 326 |
Ergonomics and Human Factors Laboratory |
|
IME 411 |
Facility Layout and Material Handling |
|
IME 412 |
Management Information Systems |
|
IME 421 |
Supply Chain and Logistics Management |
|
IME 423 |
Computer-Integrated Manufacturing (CIM) |
Elective Courses: (Each course weights 3 Credit Hours)
Students have to select four courses from the following group subjecting to the prerequisite conditions
|
IME 431 |
Industrial Safety and Work Hygiene |
|
IME 432 |
Statistical Design and Analysis of Experiments |
|
IME 433 |
Product Design and Development |
|
IME 441 |
Simulation Modeling and Analysis |
|
IME 442 |
Operations Research (2) |
|
IME 443 |
Work Design and Analysis |
|
IME 444 |
Mathematics (4) |
|
IME 445 |
Advanced Project Management |
|
IME 451 |
Advanced Statistical Methods |
|
IME 452 |
Inventory Management and Control |
|
IME 453 |
Accounting and Finance for Engineers |
|
IME 454 |
Strategic Management |
|
IME 455 |
Total Quality Management |
|
IME 456 |
Engineering Economic Analysis |
|
IME 457 |
Macro and Microeconomics |
|
IME 458 |
Marketing for Engineers |
|
IME 459 |
Systems Engineering |
Graduation Project: (10 Credit Hours)
IME 420 Graduation Project (1)
IME 500 Graduation Project (2)
MANUFACTURING ENGINEERING TRACK
Manufacturing Track (Applied Engineering and Design):
Compulsory Courses: (Each course weights 3 Credit Hours)
|
IME 327 |
Mechanical Design (2) |
|
IME 328 |
Computer Numerical Control (CNC) of Machine Tools |
|
IME 329 |
CNC Laboratory |
|
IME 413 |
Non-Conventional Machining |
|
IME 414 |
Mechanical Vibrations |
|
IME 422 |
Theories of Material Removal |
|
IME 423 |
Computer-Integrated Manufacturing (CIM) |
Elective Courses: (Each course weights 3 Credit Hours)
Students have to select five courses from the following group subjecting to the prerequisite conditions
|
IME 431 |
Industrial Safety and Work Hygiene |
|
IME 432 |
Statistical Design and Analysis of Experiments |
|
IME 433 |
Product Design and Development |
|
IME 471 |
Materials Selection |
|
IME 472 |
Failure Analysis |
|
IME 473 |
Destructive and Non-Destructive Testing |
|
IME 474 |
Finite Elements Analysis |
|
IME 475 |
Reverse Engineering and Rapid Prototyping |
|
IME 481 |
Design of Jigs and Fixtures |
|
IME 482 |
Abrasive Machining |
|
IME 483 |
Machine Tool Dynamics |
|
IME 484 |
Noise Measurement and Control |
|
IME 485 |
Machine Condition Monitoring |
|
IME 491 |
Metallic Materials |
|
IME 492 |
Non-Metallic Materials |
|
IME 493 |
Casting Processes |
|
IME 494 |
Bulk-Deformation Processes |
|
IME 495 |
Sheet-Metal-Forming Processes |
|
IME 496 |
Joining Processes |
|
IME 497 |
Plasticity |
Graduation Project: (10 Credit Hours)
IME 420 Graduation Project (1)
IME 500 Graduation Project (2)