Advanced Diploma of Engineering - MEM60112
South Metropolitan TAFE, TAFE WA
Type of institution: TAFE Institute
Level: Vocational Education and Training (VET)
CRICOS: 00020G
This qualification is part of the Metal and Engineering Training Package. It provides a comprehensive technical and theoretical base for working in the mechanical, mechatronic, manufacturing and maintenance fields at the para-professional level. This program includes a broad knowledge base of theoretical concepts which are transferred to practical applications.
Structure
- 30 units: 7 core
- 23 elective
Subjects
- Undertake basic process planning
- Perform basic eddy current testing
- Perform computations
- Implement competitive systems and practices
- Lay out avionic flight management systems
- Apply basic scientific principles and techniques in aeronautical engineering situations
- Select mechanical machine and equipment components
- Evaluate moulding tools and processes
- Assist in implementing a proactive maintenance strategy
- Work safely with ionizing radiation
- Evaluate rapid tooling applications
- Undertake basic process planning
- Coordinate servicing and fault-finding of HVACR control systems
- Select and test mechatronic engineering materials
- Represent aeronautical engineering designs
- Perform engineering activities
- Apply aeronautical engineering fundamentals to support design/development of engineering projects
- Perform basic magnetic particle testing
- Interpret and use aviation maintenance industry manuals and specifications
- Exercise external quality assurance
- Apply configuration management procedures in engineering project management
- Lay out and set up aircraft systems
- Manage self in the engineering environment
- Contribute to the design of basic mechanical systems
- Apply mathematical techniques in a manufacturing engineering or related environment
- Participate in quality assurance techniques
- Perform basic hand skills, standard trade practices and fundamentals in aviation maintenance
- Apply basic aircraft design characteristics
- Undertake value analysis of product or process costs in terms of customer requirements
- Set up basic pneumatic circuits
- Complete a building thermal performance survey
- Perform penetrant testing
- Evaluate stamping and forging tools
- Apply statistics to operational processes
- Perform advanced statistical quality control
- Contribute to the design of heat exchanger systems
- Select and apply avionic engineering methods, processes and construction techniques
- Lay out avionic systems
- Perform radiographic testing
- Integrate maintenance fundamentals into an engineering task
- Evaluate rolling tools and processes
- Prepare basic programs for programmable logic controllers
- Organise and communicate information
- Develop business plans in an organisation implementing competitive systems and practices
- Apply mechanical engineering analysis techniques
- Produce electrical schematic drawings
- Develop recommendations for basic set up time improvements
- Program coordinate measuring machines (advanced)
- Analyse and map a value stream
- Develop workplace policy and procedures for environmental sustainability
- Apply engineering mechanics principles
- Apply basic aircraft power plant design characteristics
- Produce basic engineering detail drawings
- Manage people relationships
- Apply basic just in time systems to the reduction of waste
- Undertake basic production scheduling
- Apply basic scientific principles and techniques in avionic engineering situations
- Develop a levelled pull system for operations and processes
- Perform mechatronics engineering design drafting
- Apply basic economic and ergonomic concepts to evaluate engineering applications
- Determine and establish information collection requirements and processes
- Select and apply aeronautical engineering methods, processes and construction techniques
- Use hand tools
- Develop a proactive maintenance strategy
- Use planning software systems in operations
- Develop competitive systems and practices for an organisation
- Apply automated systems principles and techniques in avionic engineering situations
- Ensure process improvements are sustained
- Develop the application of enterprise control systems in an organisation
- Perform ultrasonic thickness testing
- Integrate mechatronic fundamentals into an engineering task
- Perform basic penetrant testing
- Design a process layout
- Assist in the analysis of a supply chain
- Maintain/supervise the application of quality procedures
- Apply computer-aided modelling and data management techniques to avionic engineering designs
- Evaluate programmable logic controller and related control system component applications
- Undertake supervised procurement activities
- Perform basic radiographic testing
- Analyse loads on frames and mechanisms
- Plan and design aeronautical engineering projects
- Evaluate jigs and fixtures
- Facilitate and improve implementation of 5S
- Facilitate the development of a new product
- Apply calculus to engineering tasks
- Evaluate suitability of materials for engineering-related applications
- Apply scientific principles and techniques in avionic engineering situations
- Measure and analyse noise and vibration
- Prepare a simple production schedule
- Evaluate fluid power systems
- Evaluate thermodynamic systems and components
- Represent avionic engineering designs
- Interpret occupational health and safety practices in aviation maintenance
- Manage competitive systems and practices responding to individual and unique customer orders
- Perform magnetic particle testing
- Coordinate sales and promotion of engineering-related products or services
- Develop and manage a plan for a simple manufacturing related project
- Perform ultrasonic testing
- Improve cost factors in work practices
- Interact with computing technology
- Perform eddy current testing
- Apply systems engineering procedures to engineering design project management
- Use graphical techniques and perform simple statistical computations
- Source and estimate engineering materials requirements
- Apply avionic engineering fundamentals to support design and development of engineering projects
- Determine and improve process capability
- Use computer-aided design (CAD) to create and display 3-D models
- Integrate mechanical fundamentals into an engineering task
- Apply production and service control techniques
- Apply avionic system design principles and techniques in avionic engineering situations
- Manage workplace learning
- Facilitate the use of planning software systems in a work area or team
- Prepare mechanical models for computer-aided engineering (CAE)
- Set up basic hydraulic circuits
- Perform laboratory procedures
- Assist in sales of technical products/systems
- Select common engineering materials
- Undertake root cause analysis
- Perform mechanical engineering design drafting
- Develop and manage sustainable energy practices
- Manage 5S system in an organisation
- Apply advanced algebra and numerical methods to engineering tasks
- Select and test components for simple electronic switching and timing circuits
- Contribute to the design of heating systems
- Evaluate industrial robotic applications
- Perform basic statistical quality control
- Apply computer-aided modelling and data management techniques to aeronautical engineering designs
- Operate computer-aided design (CAD) system to produce basic drawing elements
- Integrate manufacturing fundamentals into an engineering task
- Contribute to the design of commercial and industrial exhaust systems
- Evaluate thermal loads for heating, ventilation, air conditioning and refrigeration
- Apply technical mathematics
- Calculate force systems within simple beam structures
- Complete aviation maintenance industry documentation
- Select electrical equipment and components for engineering applications
- Coordinate continuous improvement and technical development
- Evaluate rapid prototyping applications
- Apply automated systems principles and techniques in aeronautical engineering situations
- Implement and monitor environmentally sustainable work practices
- Monitor a levelled pull system of operations
- Mistake proof an operational process
- Coordinate resources for an engineering project or operation
- Manage a value stream
- Undertake proactive maintenance analyses
- Facilitate change in an organisation implementing competitive systems and practices
- Operate and program computers and/or controllers in engineering situations
- Select and test mechanical engineering materials
- Evaluate computer integrated manufacturing systems
- Coordinate engineering-related manufacturing operations
- Optimise cost of a product or service
- Prepare mechatronic models for computer-aided engineering (CAE)
- Evaluate microcontroller applications
- Schedule material deliveries
- Evaluate rapid manufacturing processes
- Apply quality standards applicable to aviation maintenance processes
- Apply metallurgy principles
- Apply manufactured product design techniques
- Plan and design avionic engineering projects
- Apply cost factors to work practices
- Analyse plant and equipment condition monitoring results
- Participate in environmentally sustainable work practices
- Calculate stresses in simple structures
- Adapt a proactive maintenance strategy for a seasonal or cyclical business
- Coordinate engineering projects
- Analyse manual handling processes
- Apply fluid and thermodynamics principles in engineering
- Use resource planning software systems in manufacturing
- Evaluate continuous improvement processes
- Evaluate manufacturing processes
- Apply basic electro and control scientific principles and techniques in aeronautical engineering
- Evaluate maintenance systems
- Use SCADA systems in operations
- Conduct product and/or process capability studies
- Manage environmental effects of engineering activities
- Apply mechatronic engineering analysis techniques
- Apply statistics and probability techniques to engineering tasks
- Design an experiment
- Assist in the preparation of a basic workplace layout
- Select and test avionic engineering materials
- Contribute to the design of hydronic systems
- Apply scientific principles and techniques in aeronautical engineering situations
- Analyse a simple electrical system circuit
- Establish non-destructive tests
- Use workshop equipment and processes to complete an engineering project
- Facilitate the use of SCADA systems in a team or work area
- Supervise occupational health and safety in an industrial work environment.
- Calibrate measuring equipment
- Undertake process capability improvements
- Develop a Just in Time system
- Prepare a simple cost estimate for a manufactured product
- Produce basic engineering drawings
- Investigate electrical and electronic controllers in engineering applications
- Manage relationships with non-customer external organisations
- Contribute to the design of industrial refrigeration systems
- Evaluate hydrodynamic systems and system components
- Perform maintenance-related integrated logistic support management activities
- Select and test aeronautical engineering materials
- Use basic preventative maintenance techniques and tools
- Contribute to the design of a commercial refrigeration system
- Develop quick changeover procedures
- Apply aeronautical system design principles and techniques in aeronautical engineering situations
- Facilitate a Just in Time system
Study pathways
Not Applicable
Study information
Campus | Fees | Entry | Mid year intake | Attendance |
---|---|---|---|---|
ACEPT - Munster | No | |||
Carlisle | No |
Related courses
Is the information on this page correct? Request update
Request Information Update
Enquire about this course
Related careers