Master of Mechanical Engineering - MDM

About the program

This programme is designed to extend the knowledge and skills gained from the first degree and to develop new professional skills in the student. The programme involves lectures, seminars and project work. 

Full Time – International

Minimum 3 Semesters (1.5 Years) 

Master of Mechanical Engineering is recognized by Malaysian Qualification Agency (MQA) /  (MQA/FA5861) & (MQA/FA5862)

Basic Qualifications

  • Bachelor Degree in Engineering or Science from recognized institutions with minimum CPA of 2.50 and related experience in related field recognized by the UTHM Senate.
  • Minimum score of MUET Band 3 or TOELF 500 or IELTS 5.0.
Research AreaSpecialisation
Mechanics 

Noise and Vibration • Fatigue and Fracture Mechanics • Computational  Fracture • Mechanics • Impact and Crashworthiness Mechanics • Finite Element Methods • Strength of Solids and Structures • Control Engineering • Intelligent Control System Design

ManufacturingAdvanced Manufacturing Process • Advanced Machining Processes • Computer Aided Design • Computer Aided Manufacturing • Rapid Prototyping • Industrial Engineering • Industrial Automation • Modelling and Optimisations • Scheduling and Optimisations • Optimisation Method in Metal Casting • Metal fabrication • Quality Engineering • Quality and Productivity Improvement • Production and Operations Management • Sustainable Manufacturing • Additive Manufacturing • Recycling Technology • Intelligent System for Manufacturing • Manufacturing System for Optimisation • Micromachining Process • Micromanufacturing • New Fabric Technology • Industrial Textile Application • Metrology and Measurement
Materials

Composite • Biomaterials • Polymer • Powder Metallurgy • Membrane • Porous Materials • Engineering Design Methodologies • Computer Aided Engineering • Ceramics/Electro-ceramics • Electroplating • Thin Film and Coating • Lightweight Alloy • Product Lifecycle Management • Railway Engineering • Engineering Education • Nanomaterials • Natural Fibre based Composite

ThermofluidsThermodynamics • Heat Transfer • Computational Fluid Dynamics • Indoor Air Quality & Thermal Comfort • Combustion and Pollution Control • Green Technology • Burner System • Vehicles performance and emissions • Alternative and Renewable Fuel • Spray and Atomisation • Wind Turbine
Aeronautics

Aircraft propulsion • Aircraft Turbomachinery • Aircraft material and structure • Aircraft design • Aerodynamics