Mechanical & Manufacturing Eng - MANFBH3707
Stream Summary
Faculty: ENG - Faculty of Engineering
School: School of Mechanical and Manufacturing Engineering
Contact: School
Program: 3707 - Engineering (Honours)
Award(s):
Bachelor of Engineering (Honours) (Major)
View stream information for previous years
Stream Outline
The Mechanical and Manufacturing Engineering stream is designed for students with a mechanical engineering major whose interests also lie in realising, commercialising and implementing mechanical and mechatronic systems and designs. The five core courses included as part of this stream have been designed on the basis of world best practice in manufacturing and industrial engineering and reflect a top-down - bottom-up approach, spanning the disciplines of Strategy and Management, Operations and Supply Chains, Analysis and Decision-making, Design of Product-Process Systems and Technology & Automation.
Within each discipline area this new stream will cover many conceptual and analytical techniques, all supporting fact- and data-based analysis and decision making with the aim of improved product and process performance, economy and sustainability. This stream is designed to help you to learn how to transform a design from a conceptual stage into a prototype and ultimately into a commercially realisable and viable product. This stream focuses on technical as well as commercial aspects and particularly in developing the ability to build a business or commercial case for making engineering related decisions, such as investment in plant, equipment and processes. Although the main emphasis will be on product and process, consideration will also be given to designing compatible and appropriate engineering support services. The stream also emphasises the strategic impact of operations decisions and the interfaces between operations and the other functional areas of organisations, including of course, finance. This stream encompasses the key elements of operations management and investment analysis and pulls them together in a coherent format that allows you to understand the ‘big picture’ as well as ‘the specific details’. It is aimed at integrating the knowledge gained from the mechanical engineering courses you have studied into a framework and process that allows you to implement your designs, solutions and ideas in a commercial environment.
Mechanical engineers have traditionally played the major role in the analysis and design of complex machinery, devices such as actuators and sensors, as well as energy transformation, heat transfer and electro-mechanical processes. In an environment of global competition, sustainability (energy, environment as well as cost and capital), increasingly complex customer requirements and statutory regulations as well as the increasing pace of technological change and new product innovation, it is vital for modern engineers to possess the skills to not only design but equally importantly, implement and realize their designs in the most appropriate way. In this increasingly complex environment, successful organizations – public, private or governmental – need engineers with analytical and diverse skills, especially in integrating technical with commercial and organisational issues, analyses and ultimately solutions. It is the purpose and aim of the Mechanical and Manufacturing Engineering stream to equip you with this knowledge and understanding to become a global engineer, indeed a leader, with the ability to apply analytical methods and quality processes to create short and long term value for your organization, your customers, and the community. It encapsulates the key elements of mechanical engineering and combines them with the five core disciplines of manufacturing and industrial engineering.
An engineer trained in Mechanical and Manufacturing Engineering may be employed in a very flexible and diverse range of disciplines and areas of industrial activity, including; product design, process design, computer aided design, computer aided manufacturing, quality improvement, technical and commercial analysis and decision making, strategic decision making, consulting, sales support, technical and organisational maintenance, and supply chain management.
Within each discipline area this new stream will cover many conceptual and analytical techniques, all supporting fact- and data-based analysis and decision making with the aim of improved product and process performance, economy and sustainability. This stream is designed to help you to learn how to transform a design from a conceptual stage into a prototype and ultimately into a commercially realisable and viable product. This stream focuses on technical as well as commercial aspects and particularly in developing the ability to build a business or commercial case for making engineering related decisions, such as investment in plant, equipment and processes. Although the main emphasis will be on product and process, consideration will also be given to designing compatible and appropriate engineering support services. The stream also emphasises the strategic impact of operations decisions and the interfaces between operations and the other functional areas of organisations, including of course, finance. This stream encompasses the key elements of operations management and investment analysis and pulls them together in a coherent format that allows you to understand the ‘big picture’ as well as ‘the specific details’. It is aimed at integrating the knowledge gained from the mechanical engineering courses you have studied into a framework and process that allows you to implement your designs, solutions and ideas in a commercial environment.
Mechanical engineers have traditionally played the major role in the analysis and design of complex machinery, devices such as actuators and sensors, as well as energy transformation, heat transfer and electro-mechanical processes. In an environment of global competition, sustainability (energy, environment as well as cost and capital), increasingly complex customer requirements and statutory regulations as well as the increasing pace of technological change and new product innovation, it is vital for modern engineers to possess the skills to not only design but equally importantly, implement and realize their designs in the most appropriate way. In this increasingly complex environment, successful organizations – public, private or governmental – need engineers with analytical and diverse skills, especially in integrating technical with commercial and organisational issues, analyses and ultimately solutions. It is the purpose and aim of the Mechanical and Manufacturing Engineering stream to equip you with this knowledge and understanding to become a global engineer, indeed a leader, with the ability to apply analytical methods and quality processes to create short and long term value for your organization, your customers, and the community. It encapsulates the key elements of mechanical engineering and combines them with the five core disciplines of manufacturing and industrial engineering.
An engineer trained in Mechanical and Manufacturing Engineering may be employed in a very flexible and diverse range of disciplines and areas of industrial activity, including; product design, process design, computer aided design, computer aided manufacturing, quality improvement, technical and commercial analysis and decision making, strategic decision making, consulting, sales support, technical and organisational maintenance, and supply chain management.
Stream Structure
This page outlines the core rules for the Manufacturing Engineering Stream when taken as part of a single or dual award. The requirements will total 168 units of credit, in addition to any other requirements outlined on the main program page.
Full time students complete four (24 UOC) courses per semester.
Recommended plans of study may be found here
Year 1
Choose ONE of:
Full time students complete four (24 UOC) courses per semester.
Recommended plans of study may be found here
Year 1
Choose ONE of:
- MATH1131 Mathematics 1A (6 UOC)
- MATH1141 Higher Mathematics 1A (6 UOC)
And ONE of:
- MATH1231 Mathematics 1B (6 UOC)
- MATH1241 Higher Mathematics 1B (6 UOC)
And ONE of:
- PHYS1121 Physics 1A (6 UOC)
- PHYS1131 Higher Physics 1A (6 UOC)
Plus these following 2 courses:
- ENGG1000 Engineering Design (6 UOC)
- MMAN1300 Engineering Mechanics (6 UOC)
And ONE of:
- COMP1511 Introduction to Programming (6 UOC)
- COMP1911 Computing 1A (6 UOC)
- ENGG1811 Computing for Engineers (6 UOC)
- Students take MMAN1300 and ELEC1111 as core. Student may choose to take up to an additional 12 UOC of Level 1 electives. If students choose to forego some or all of the additional Level 1 electives then additional higher level electives may be taken later in the program.
- ENGG1811 is the preferred Computing course for the MANFBH Stream.
- CVEN1300 is considered equivalent to MMAN1300.
- Not all courses are offered in both semesters but students should complete 24 UOC in each semester.
- Students in BE(Hons)/BSc(Computer Science) dual degree should take COMP1521 as one of their first year electives.
The following courses must be taken to complete the stream:
- ELEC1111 Elec & Telecomm Eng (6 UOC)
- MMAN2130 Design and Manufacturing (6 UOC)
- MATH2019 Engineering Mathematics 2E (6 UOC)
- MATH2089 Numerical Methods & Statistics (6 UOC)
- MMAN2100 Engineering Design 2 (6 UOC)
- MMAN2300 Engineering Mechanics 2 (6 UOC)
- MMAN2400 Mechanics of Solids 1 (6 UOC)
- MMAN2600 Fluid Mechanics (6 UOC)
- MMAN2700 Thermodynamics (6 UOC)
Note: MATH2018 Engineering Mathematics 2D is an alternative to MATH2019.
- MANF4100 Design & Analysis of Product P (6 UOC)
- MMAN4010 Thesis A (6 UOC)
- MMAN4020 Thesis B (6 UOC)
- MMAN4400 Engineering Management (6 UOC)
Disciplinary Electives
Students may take the following courses to meet any remaining UOC requirements:
Students may take the following courses to meet any remaining UOC requirements:
- MANF6860 Strategic Manufacturing Mngt (6 UOC)
- MANF9400 Industrial Management (6 UOC)
- MANF9420 Supply Chain in Engineering (6 UOC)
- MANF9472 Production Planning & Control (6 UOC)
- MECH9420 Composite Materials and Mechan (6 UOC)
- MECH9650 Introduction to MEMS (6 UOC)
- MECH9720 Solar Thermal Energy Design (6 UOC)
- MECH9761 Automobile Engine Technology (6 UOC)
- MMAN4410 Finite Element Methods (6 UOC)
- MTRN4030 Optim. Methods for Engin. Syst (6 UOC)
- Other courses from the BE(Hons) program, subject to PRIOR approval.
Plus
- A minimum of 60 days Industrial Training must be completed.
Thesis Arrangements
- MMAN4010 and MMAN4020 must be undertaken in two consecutive semesters which are the final two semesters of candidature.
- A student must not be enrolled in more than 24 units of credit in any semester involving MMAN4010 and MMAN4020.
- A single thesis project is commenced in MMAN4010 and completed in MMAN4020.
- MMAN4010 is a graded course, carrying 25% of the total thesis mark (for Honours weighting purposes). If a student receives a failure (FL) in MMAN4010, a student cannot proceed with MMAN4020, and must reattempt MMAN4010.
- If the project is abandoned during MMAN4020, a completely new topic must be chosen and the student must enrol again in both MMAN4010 and MMAN4020.
- BE/MBiomedE students must take BIOM5001 instead of MMAN4010 and BIOM5003 instead of MMAN4020.
