Advanced Diploma of Building Design (Architectural)

Melbourne Polytechnic
Melbourne, Victoria, Australia
Advanced Diploma
Study mode
2 years
February July
Tuition fee (local)
Contact the university / college
Tuition fee (foreign)
USD 19,760

Entry Requirements

  • Academic: Australian Year 12 equivalency.
  • English Language: Academic IELTS 5.5 overall with no individual band below 5.0, or equivalency.


  • Produce Drawings Manually
  • Apply Quality Management Techniques
  • Apply Communications Management Techniques
  • Manage Projects
  • Apply Principles Of Occupational Health And Safety In The Work Environment
  • Organise And Communicate Information
  • Interact With Computing Technology
  • Use Hand Tools
  • Use Power Tools/Hand Held Operations
  • Manage Self In An Engineering Environment
  • Operate And Program Computers
  • Apply Technical Mathematics
  • Apply Calculus To Engineering Tasks
  • Apply Engineering Mechanics Principles
  • Basic Penetrant Testing
  • Basic Magnetic Particle Testing
  • Apply Metallurgy Principles
  • Select Common Engineering Materials
  • Set Up Basic Hydraulic Circuits
  • Set Up Basic Pneumatic Circuits
  • Apply Mathematical Techniques In A Manufacturing, Engineering Or Related Environment
  • Operate Computer Aided Design (Cad) System To Produce Basic Drawing Elements
  • Use Computer-Operated Design (Cad) To Create And Display 3-D Models
  • Develop Competitive Manufacturing System
  • Participate In Environmentally Sustainable Work Practices
  • Produce Basic Engineering Components And Products Using Fabrication And Machining
  • Perform Cutting, Grinding And Turning Operations
  • Produce Basic Engineering Sketches And Drawings
  • Handle Engineering Materials
  • Perform Basic Machine Processes
  • Apply Basic Fabrication Techniques
  • Form, Bend And Shape Engineering Materials
  • Use Basic Engineering Concepts To Plan The Manufacture Of Engineering Conponents
  • Produce Engineering Components By Operating Cnc Manufacturing Cells
  • Apply Mathematical Solutions To Engineering Problems
  • Apply Statistical Methods For Quality Control And Reliability
  • Apply Principles Of Mechanics To Engineering Problems
  • Apply Principles Of Strength Of Materials To Engineering Problems
  • Apply Calculus To Engineering Problems
  • Annotate And Create Assemblies Using Soldid Models
  • Select And Apply Lubrication Principles
  • Select And Maintain Bearing And Rotary Shaft Assemblies
  • Plan For The Implementation Of Mechanical Drive Systems
  • Perform Vibration Measurement Control
  • Design Mechanical Engineering Systems
  • Apply Thermodynamic Principles In Engineering
  • Design Mechanical Machines
  • Apply Principles Of Mechanics To Engineering Structures
  • Produce Basic Engineering Sketches And Drawings
  • Use Computer Aided Drafting Systems
  • Use Advanced 2d And 3d Computer Aided Drafting Techniques
  • Apply Computer Based Solid Modelling Techniques
  • Program A 3d Milling Machine Centre
  • Program 4th Axis Applications
  • Create Advanced Programs For Cnc Machine Centres
  • Write And Modify Basic Cnc Programs
  • Write Advanced Cnc Programs And Operate Vertical Machining Centre
  • Write Advanced Cnc Programs And Operate A Multi Axis Turning Centre
  • Apply Fluid Mechanic Principles In Mechanical Engineering
  • Set Up Fluid Power Controlled Engineering Systems
  • Design Fluid Power Controlled Engineering Systems
  • Apply Hydraulic Principles In Engineering
  • Apply Pneumatic Principles In Engineering
  • Set Up Manufacturing Processes For Engineering Applications
  • Design Tool Jigs And Fixtures For Advanced Manufacturing
  • Apply Computer Aided Manufacturing (Cam) Processes
  • Apply Computer Aided Manufacturing (Cam) 2d Programming
  • Apply Computer Aided Manufacturing (Cam) Lathe Programming
  • Program And Set Up Co-Ordinate Measuring Machines (Cmm)
  • Implement Basic Principles Of Materials Science To Engineering Applications
  • Implement Advanced Principles Of Materials Science To Engineering Applications
  • Program, Operate And Select A Robotics System
  • Plan And Manage A Robotics System
  • Analyse And Select Advanced Welding Processes
  • Implement Non-Destructive Welding Test
  • Apply Scientific Principles


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