Vision


Become a quality and leading edge study program in producing graduates who excel in the development and implementation of science and technology in the field of Mechanical Engineering along with the reliability in analysis, especially in the areas of: Design Manufacturing/Automotive; Energy Conversion; Material Formation; and Mechatronics recognized up to the international level in innovation and entrepreneurship for the welfare of the global community.

Mission


  • To hold a quality higher education in order to produce a Bachelor of Mechanical Engineering who have integrity, professional, ethical and have the ability to adapt to a variety of developments, and has an entrepreneurial spirit.
  • Conducting the innovative and relevant research in the field of Mechanical Engineering to the needs of industry, science and applied technology to support the implementation of higher education quality.
  • Held a community service activities in the field of Mechanical Engineering that is qualified, effective and sustainable.
  • Establish and enhance mutually beneficial cooperation with various parties, including the government, private, industrial or other institutions both nationally and internationally relevant in order to improve the quality of graduates.

About the Study Program


Mechanical Engineering is the broadest of all Engineering disciplines, encompassing areas such as energy, fluid mechanics, dynamics, combustion, vibration, design, manufacturing process, systems modeling and simulation, mechatronics, robotics, characterization and strength in materials, and rapid prototyping.

The objective of Mechanical Engineering Study Program is to train and educate student in support of the design of engineered systems through the application of the fundamental knowledge, skills, and tools of mechanical engineering. Also, able to work independently as well as collaboratively with others, while demonstrating the professional and ethical responsibilities of the engineering profession. And, successfully pursue graduate degrees at the master's and/or doctoral levels, should they choose.

The curriculum of Mechanical Engineering Study Programme divided into 17% University Core, 67% Study Program Core, 8% Concentration Core, 4% Internship and 4% Final Project. Students have four concentrations to choose from:

Automotive Manufacture 

This concentration is facilitating the students who have interest in vehicle manufacture. They will learn the fundamentals in hybrid electric, hybrid hydraulic and electric vehicle engineering, power conversion, vehicle dynamics, energy/fuel efficiency up to finite element analysis. The goal in this concentration is to generate the graduate of mechanical engineering who are able to design, calculate all electrical-mechanical components and also manufacture and assembly the vehicles.

Energy Conversion 

Upon the completion of Thermal-Fluid Engineering series courses (Thermodynamics, Fluid Mechanics and Heat-Mass Transfer), this concentration delivers advanced science and technology of energy conversion related. Besides, the source of energy will be discussed, followed by energy conversion machinery or technology. The goal is students are expected to develop their own energy project.

Nanomaterials

This concentration is focus on materials science-based approach to nanotechnology, leveraging advances in materials metrology and synthesis which have been developed in support of micro-fabrication research. The goal in this concentration is to investigate and develop Materials with better structure at the nano scale which often has unique optical, electronic, or mechanical properties.

Mechatronics

Mechatronics is the synergistic integration of mechanical, electrical & control, and computer technologies in the design of complex products and processes. The goals from this concentration are focuses on complementary students knowledge in developing sensors and transducers, signal conditioning, measurement systems, pneumatic and hydraulic activation systems and programmable logic controller applications.

Click this link to discover more about Mechanical Engineering Study Programme.

Professional Outcomess


Mechanical Engineering is the broadest of all Engineering disciplines, encompassing areas such as energy, fluid mechanics, dynamics, combustion, vibration, design, manufacturing process, systems modeling and simulation, mechatronics, robotics, characterization and strength in materials, and rapid prototyping.

The objective of Mechanical Engineering Study Program is to train and educate student in support of the design of engineered systems through the application of the fundamental knowledge, skills, and tools of mechanical engineering. Also, able to work independently as well as collaboratively with others, while demonstrating the professional and ethical responsibilities of the engineering profession. And, successfully pursue graduate degrees at the master's and/or doctoral levels, should they choose.

The curriculum of Mechanical Engineering Study Programme divided into 17% University Core, 67% Study Program Core, 8% Concentration Core, 4% Internship and 4% Final Project. Students have four concentrations to choose from:

Automotive Manufacture 

This concentration is facilitating the students who have interest in vehicle manufacture. They will learn the fundamentals in hybrid electric, hybrid hydraulic and electric vehicle engineering, power conversion, vehicle dynamics, energy/fuel efficiency up to finite element analysis. The goal in this concentration is to generate the graduate of mechanical engineering who are able to design, calculate all electrical-mechanical components and also manufacture and assembly the vehicles.

Energy Conversion 

Upon the completion of Thermal-Fluid Engineering series courses (Thermodynamics, Fluid Mechanics and Heat-Mass Transfer), this concentration delivers advanced science and technology of energy conversion related. Besides, the source of energy will be discussed, followed by energy conversion machinery or technology. The goal is students are expected to develop their own energy project.

Nanomaterials

This concentration is focus on materials science-based approach to nanotechnology, leveraging advances in materials metrology and synthesis which have been developed in support of micro-fabrication research. The goal in this concentration is to investigate and develop Materials with better structure at the nano scale which often has unique optical, electronic, or mechanical properties.

Mechatronics

Mechatronics is the synergistic integration of mechanical, electrical & control, and computer technologies in the design of complex products and processes. The goals from this concentration are focuses on complementary students knowledge in developing sensors and transducers, signal conditioning, measurement systems, pneumatic and hydraulic activation systems and programmable logic controller applications.

Click this link to discover more about Mechanical Engineering Study Programme.


Professional Outcomes

  • Applications Engineer

  • Design Engineer

  • Electro-Mechanical Engineer

  • Energy Efficiency Engineer

  • Facilities Design Engineer

  • Manufacturing Engineer

  • Mechanical Device Engineer

  • Mechanical Product Engineer

  • Mechatronics Engineer

  • Packaging Engineer

  • Plant Engineer

  • Power Engineer

  • Principal Engineer

  • Process Development Engineer

  • Product Applications Engineer

  • Product Engineer

  • Project Capture Engineer

  • Renewable Energy Consultant

  • Sales Engineer

  • Systems Engineer