Diploma Teknologi Teknik (Mekanik atau Manufaktur)

Melbourne Polytechnic
Melbourne, Victoria, Australia
Diploma 3 (D3)
Mode pembelajaran
1 year
Biaya (lokal)
Informasi tidak terdapat
Biaya (orang asing)
Rp 258,810,811

Syarat masuk

  • Ijasah SMA dengan nilai rata-rata 7-9
  • Bahasa Inggris: IELTS Akademik 5,5 keseluruhan atau kesetaraan yang diakui.


  • Produce drawings manually
  • Apply quality management techniques
  • Apply communications management techniques
  • Manage projects
  • Apply principles of occupational health and safety in the work environment
  • Organize and communicate information
  • Interact with computing technology
  • Use hand tools
  • Use power tool/hand held operations
  • Produce keys
  • Assemble and test lock mechanism
  • Install and upgrade locks and hardware
  • Maintain and service mechanical locking devices
  • Manage self in an engineering environment
  • Operate and program computers
  • Apply technical mathematics
  • 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 3D 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 components
  • 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 solid 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
  • Evaluate and maintain security containers
  • Analyse, plan and develop mechanical security for buildings
  • 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 center
  • Program 4th axis applications
  • Create advanced programs for CNC machine centres
  • Write and modify basic CNC programs
  • Write advanced CNC programs and operate vertical machine center
  • Write advanced CNC programs and operate a multi-axis turning center
  • 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 process 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 machine (CMM)
  • Implement basic principles or 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


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