Introduction to Automotive Technology
| Code | School | Level | Credits | Semesters |
| MMME3013 | Mechanical, Materials & Manufacturing Engineering | 3 | 10 | Spring Malaysia |
- Code
- MMME3013
- School
- Mechanical, Materials & Manufacturing Engineering
- Level
- 3
- Credits
- 10
- Semesters
- Spring Malaysia
Summary
For each of the following subject areas, the historical evolution of design of the component is considered with regard to the influences of performance optimisation, cost, and legislative requirements: Engine (i.c. types and development trends, fuel economy and emissions, alternative and hybrid powertrains) Transmission (manual and auto gearbox, differential, 2- and 4WD systems) Body/chassis (skeletal and unitary constructions, crashworthiness, aerodynamics) Control systems (steering and linkage, braking inc. ABS and traction/stability control) Suspension (arrangements, handling/dynamics)
Target Students
Mechanical and mechatronics students.
Classes
- One 2-hour lecture each week for 12 weeks
Assessment
- 100% Final Exam (2-hour): 2-hour written examination
Educational Aims
The aim of this module is to provide students with the knowledge and understanding of the fundamentals of automotive engineering. The module also develops the appreciation of the economic and legislative influences on the design of a modern automobile.Learning Outcomes
On successful completion of this module students will be able to:
LO1 – Comprehend the fundamental knowledge of scientific principles, technological developments and industrial practices in areas related to vehicle design, performance, manufacturing, legislation and environment (knowledge and comprehension) AHEP4: M1, M13 ; EAC: PO1.
LO2 – Apply the fundamental knowledge and understanding to the analysis of vehicle performance such as powertrain, suspension systems and body structures (application) AHEP4: M1 ; EAC: PO1.
LO3 – Analyse critically all the different aspects of vehicle systems, which includes key issues such as environmental and sustainability limitations and crashworthiness legislation (analysis) AHEP4: M5 ; EAC: PO3.
LO4 – Formulate appropriate scientific methods/models to interpret and analyse problems within the context of automotive engineering (synthesis) AHEP4: M2 ; EAC: PO2.
LO5 – Appraise solutions to automotive engineering problems using an appropriate level of explanation, showing evidence of judgement in selection of analysis techniques (evaluation) AHEP4: M5 ; EAC: PO3.
Conveners
- Dr Hazem Mohamed Mohamed Demrdash