Master of Science​in Mechanical Engineering

Source: https://www.utp.edu.my/Pages/Admission/Postgraduate/Master-by-Research/MSc-in-Mechanical-Engineering.aspx Parent: https://www.utp.edu.my/Pages/Admission/Postgraduate/Master-by-Research.aspx

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Master of Science​ in Mechanical Engineering

(R3/521/7/0022) (03/27) (​A8048)​​\

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Introduction\

The Master of Science (MSc) in Mechanical Engineering by Research at Universiti Teknologi PETRONAS (UTP) is a prestigious postgraduate programme designed for individuals seeking to advance their knowledge and expertise in mechanical engineering through independent, in-depth research. This programme is tailored to produce skilled researchers and innovators capable of addressing complex engineering challenges while contributing to scientific advancements and technological breakthroughs.

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Programme Objectives

1. Specialists who are able to practice the knowledge acquired and generate innovative and creative solution for research and scholarly activities in Mechanical Engineering related fields.
2. ​Specialists who promotes lifelong learning and are able to contribute to knowledge creation, innovation and creative solutions for the well-being and betterment of societies.

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Programme Outcomes

At the end of the program, graduates should be able to:

1. Demonstrate in-depth and frontier knowledge and understanding in the Mechanical Engineering related fields.

2. Critically and creatively apply knowledge to resolve complex disciplinary and practical problems in Mechanical Engineering related fields.

3. Conduct rigorous and independent research or investigation with minimal supervision.

4. Perform research adhering to legal, ethical, professional and sustainable practices.

5. Demonstrate intellectual leadership qualities and management skills.

6. Communicate effectively in the Mechanical Engineering related field.

7. Select and use suitable digital and analytical tool techniques to research problems.

8. Demonstrate commitment to lifelong learning and personal development.

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What is ODL & How it is Conducted in UTP

 Mechanical System Design

 Vehicle Design

 Advanced Engine Development

 Advanced Materials and Processing

 Manufacturing System Optimization

 Energy Systems

 Corrosion and Reliability

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Programme Highlights​

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Core specialisation:

 Mechanical System Design

 Vehicle Design

 Advanced Engine Development

 Advanced Materials and Processing

 Manufacturing System Optimization

 Energy Systems

 Corrosion and Reliability

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Specialised Technical Certifications:

Students may obtain specialized certifications through training and workshops on advanced engineering software such as Altair, ANSYS, MATLAB, and other relevant tools.

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World-Class Facilities:

Students have access to state-of-the-art laboratories, high-performance computing resources, and advanced engineering software like Altair, ANSYS, MATLAB, and more.

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Expert Academic Supervision:

Renowned faculty members with extensive research experience and industry linkages guide students in achieving groundbreaking research outcomes.

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Industry-Focused Research:

UTP’s strong partnerships with industries (SIRIM, STRIDE, CELESTICA, PETRONAS) enable students to work on impactful, real-world engineering problems that drive industrial innovation.

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Programme Details

Department:Department of Mechanical Engineering  \

Intakes: January, May, and September

Mode of Delivery:

The Mechanical Engineering by Research programme at UTP is designed to provide a flexible and research-intensive learning environment. Below are the key modes of deliverance:

1. Research-Centric Approach

2. One-on-One Supervision

3. Access to State-of-the-Art Facilities

4. Workshops and Seminars

5. Online and On-Campus Support

6. Collaborative and Industry-Driven Research

7. Flexible Study Plan

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Course Duration:

Full Time : Min 2 Years Max: 4 Years

Part Time: Min 3 Years Max: 6 Years

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Mode of Study

Full Time and Part Time

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Entry Requirements

1. Candidates must hold a BSc Degree in Engineering/ Engineering Technology discipline with minimum CGPA 2.50/4.00 or equivalent in the relevant field from a recognised university.

2. Candidates with BSc Degree in Engineering/Engineering Technology discipline with minimum CGPA 2.00 but below 2.50, can be admitted and must have 5 years working experience & pass UTP internal rigorous assessment.

3. Candidates with BSc Degree qualification from different discipline, must undergo pre-requisite courses of Dynamics and Heat Transfer.

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English Requirements

IELTS - 5.0, TOEFL – 500

However, this requirement is waived if candidate;

 have obtained Bachelor / Master or other relevant degree from Malaysian recognised institution whereby all courses are fully conducted in English or;

 a native of an English speaking countries or;

 graduated from English speaking countries institutions

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Pre-Requisite

Candidates with BSc Degree qualification from different discipline, must undergo pre-requisite courses of Dynamics and Heat Transfer

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Career Prospects

Graduates can pursue careers in:

• R&D in engineering industries

• Academic roles as lecturers or researchers

• Advanced positions in mechanical design and product development

• Consultancy in mechanical systems and energy solutions

Many graduates also use the MSc as a stepping stone to PhD studies.

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Contact Information

Programme Leader

Dr. Mazli Bin Mustapha

Email: mazli.mustapha@utp.edu.my

Direct Line: +6053687208

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Academic Executive

Ms Farah Abdul Latif

Email: farahlatif@utp.edu.my

Direct Line: +6053687030

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General Inquiries

Ms Nurul Asmira Sulaiman

Email: asmira.sulaiman@utp.edu.my

Direct Line: +6053688192

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FAQ

1. What is the difference between a research-based MSc and a taught MSc programme?

A research-based MSc focuses on independent research under the guidance of a supervisor, culminating in a thesis. Unlike taught programs, it has minimal coursework and emphasizes the development of critical thinking, problem-solving, and technical skills through research.

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2. What kind of research topics can I pursue during the MSc programme?

Research areas include but are not limited to:

 Advanced materials and composites

 Thermal and fluid systems

 Additive manufacturing and 3D printing

 Renewable energy systems

 Corrosion & Reliability

Students often align their research with the expertise of their chosen supervisor or the institution's focus areas.

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3. What are the career opportunities after completing the MSc in Mechanical Engineering by research?

Graduates can pursue careers in:

 R&D in engineering industries

 Academic roles as lecturers or researchers

 Advanced positions in mechanical design and product development

 Consultancy in mechanical systems and energy solutions

 Many graduates also use the MSc as a stepping stone to PhD studies.