Overview
All products from aircraft and automobiles to computers and toys must be manufactured. Manufacturing engineering encompasses the science and art of making quality products at a reasonable cost. It is multi disciplinary field including elements of mechanical engineering, industrial engineering, materials science and electrical engineering. This programme is a combination of manufacturing engineering and automotive engineering. During the course of the study, students will be given solid understanding of the core areas which include:
- Manufacturing processes
- Manufacturing planning
- Quality control
- Tool design
- Robotics
- Computer Aided Design
- Computer Aided Manufacturing
- Automotive engineering
Programme Educational Objectives (PEOs)
- PEO 1
UniKL graduates who are knowledgeable and technically competent in the field of manufacturing and automotive. - PEO 2
UniKL graduates who are effective leaders and teamwork skills, as well as verbal and non-verbal interpersonal communication skills to support their role in the field of manufacturing and automotive engineering technology. - PEO 3
UniKL graduates who are committed towards the importance of lifelong learning and continuous improvement. - PEO 4
UniKL graduates who are professional, ethical, and socially responsible. - PEO 5
UniKL graduates who are capable of embarking on business and technopreneurial activities
Programme Learning Outcomes (PLOs)
Majors in engineering technology will be able to:
- PLO 1 Knowledge:
Apply knowledge of mathematics, science, manufacturing engineering fundamentals and automotive fundamentals to define and applied engineering procedures, process, systems or methodologies. - PLO 2 Problem Analysis:
Identify, formulate, research literature, modelling, simulate and solve broadly defined engineering problems reaching substantiated conclusions using appropriate analytical tools related to manufacturing and automotive engineering technology. - PLO 3 Design/ development of solutions:
Design solutions for broadly defined engineering technology problems and contribute to the design of systems, components or process to meet specified needs with appropriate consideration for public health and safety, cultural, societal and environmental considerations. - PLO 4 Investigation:
Conduct investigations of broadly defined problems: locate, search and select relevant data from codes, data bases and literature, design and conduct experiments to provide valid conclusion. - PLO 5 Modern Tool Usage:
Select and apply appropriate techniques, resources and modern engineering tools, including prediction and modelling to broadly-defined engineering activities, with an understanding of the limitations. - PLO 6 The Engineer and Society:
Demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities and norms of engineering technology practice. - PLO 7 Environment and Sustainability:
Understand the impact of engineering solutions in a societal context and demonstrate knowledge of and the need for sustainable development. - PLO 8 Ethics:
Understand and commit to professional ethics and responsibilities and norms of engineering technology practice. - PLO 9 Individual and Teamwork:
Function effectively as an individual, and as a member in diverse technical teams. - PLO 10 Communication:
Communicate effectively on well-defined engineering activities with the engineering community and with society at large, by being able to comprehend the work of others, document their own work, and give and receive clear instructions. - PLO 11 Project Management and Finance:
Demonstrate knowledge and understanding of engineering management principles and apply these to one’s own work, as a member or leader in a technical team and to manage projects in multidisciplinary environments. - PLO 12 Life Long Learning:
Recognise the need for and have the ability to engage in independent updating in the context of specialised technical knowledge.
Career Path
Career Information
Manufacturing jobs cover nearly everything involved in developing a product, from selecting the appropriate materials to choosing the correct machinery to manufacture the product. Most manufacturing engineers work for equipment manufacturers, aerospace companies, utilities, material processing plants, transportation companies, and petroleum companies. They also work with small firms, consulting practices, universities, and government research labs. Specific assignments might involve research and development, the design of equipment or systems, supervision of production, plant engineering, administration, sales engineering, the testing and evaluation of machines and entire plants.
Programme Contents
- Fundamental English
- Professional English 1
- Falsafah dan Isu Semasa**/Bahasa Melayu Komunikasi 2**
- Penghayatan Etika dan Peradaban*/Philosophy and Current Issues**
- Engineering Mathematics 1
- Automotive Engineering Fundamentals
- Fundamentals of Materials Science
- Computer Programming
- Engineering Mathematics 2
- Engineering Mechanics
- Engineering Drawing & CAD
- Electric Circuit Analysis
- Electrical & Electronics Laboratories
- Workshop Technology
- Isu-isu Kontemporari Muslim di Malaysia***/Culture and Lifestyle in Malaysia 2***
- Innovation Management
- Automotive Safety
- Strength of Materials
- Operation Research
- Thermal Science
- Production Planning
- Co-Curriculum (9 Options)
- Metrology
- Fluid Mechanics
- Chassis and Vehicle Dynamics
- Automotive Power Train
- Design for Plastics And Elastomer
- Engineering Materials
- Technopreneurship
- Professional English 2
- Professional Engineering Practice and Ethics
- Manufacturing Technology
- Manufacturing System
- Internet of Things (IOT) Technology
- Design for Sheet Metal Forming
- Foreign Language 1
- Pneumatic & Hydraulic Systems
- CNC Technology
- Smart Manufacturing
- Industrial Safety & Health
- Elective 1*
- Final Year Project 1
- Bahasa Kebangsaan A*
- Foreign Language 2
- CAD/CAM Rapid Prototyping
- Quality Engineering
- Elective 2
- Elective 3
- Final Year Project 2
- Industrial Training
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- Design of Experiments
- Applied Computational Fluid Dynamics
- Heat Transfer & Thermal Management
- Ergonomics & Human Factors
- Vibration and Noise
- Control Systems