On-Campus Master of Engineering – Applied Research (Mechanical)

The Master of Engineering (Applied Research) comprises of 48 credit points and is designed to be completed over two years full-time (or part-time equivalent).

Students must complete 18 credit points by coursework (6 units) and the research component, which is equivalent to 30 credit points.

The second year is dedicated to the research component. Students complete two research units that support the development and execution of their research project. Drawing on the knowledge and research training gained in Year 1; students produce a thesis at AQF Level 9. The thesis must demonstrate a significant and original contribution to knowledge within the context of professional engineering practice. Research topics are encouraged to align with emerging technologies and areas of innovation.

Academic supervision is an integral component of the program.

The research component represents approximately 60% of the total program workload.

Note: units may be completed in a different order depending on individual circumstances, pre-requisites and unit availability.

Year One

Year Two

Additional Mandatory Units

Work-Integrated Learning

EIT’s Master of Engineering programs require students to undertake 240 hours of paid or unpaid professional work-integrated learning. This can incorporate paid or unpaid internships, site visits, contributing to industry projects, and networking activities. In undertaking an internship, students will interact with employees and become exposed to organizational policy and culture. You will familiarize yourself with organizational communication procedures, a variety of engineering disciplines, and obtain insight and practical aptitude in projects from the planning phase to completion. If you already have some work experience in the relevant engineering field, you may apply to have credit granted by
completing the associated recognition of prior learning form.

• Mechanical Design Engineer
• Maintenance or Reliability Engineer
• HVAC Engineer
• Manufacturing / Production Engineer
• Energy Systems Engineer

Graduates of the Master of Engineering – Applied Research can:

• Plan, justify and execute an applied engineering research project addressing a complex real-world problem.
• Apply appropriate research methodologies, tools, and ethical, safety and privacy standards in the conduct of applied engineering investigations.
• Critically evaluate relevant literature to justify the research problem, approach, and contribution to engineering practice.
• Synthesize advanced scientific, computational, and engineering principles to design and evaluate solutions to complex engineering problems.
• Communicate complex engineering concepts, methodologies, and research findings effectively to specialist and non-specialist audiences.
• Engage in self-directed learning and reflective practice to support ongoing professional development.
• Apply advanced collaborative and ethical practices to work effectively within cross-disciplinary teams and organizational contexts

The entry criteria include academic qualification requirements and some research experience:

Academic Qualification Requirements

Pathway A: 3-Year Bachelor Degree

• Degree duration: Minimum 3 years (AQF7 equivalent or recognized international equivalent)
• Academic performance:
  • WAM ≥ 75%, OR
  • GPA ≥ 3.0 / 4.0
• Discipline: Relevant engineering or closely related field

Pathway B: 4-Year Bachelor Degree

• Degree duration: Minimum 4 years (AQF8 equivalent or recognized international equivalent), including both Washington Accord and non-WA degrees.
• Academic performance:
  • WAM ≥ 65%, OR
  • GPA ≥ 2.0 / 4.0
• Discipline: Relevant engineering or closely related field

Pathway C: Master’s Degree (Coursework)

• Qualification: Master’s degree by coursework (AQF9 or equivalent) in engineering or a closely related field.
• Academic performance: Pass overall (minimum institutional requirement)

Research Component Requirement

• Applicants must demonstrate prior exposure to structured research equivalent to:
  • ≥10% of the overall program, OR
  • ≥25% of the final year

This requirement will not be waived.

• A research component is only considered sufficient where it includes:
  • Defined problem or research questions
  • Use of methodology (analytical, experimental, simulation or design based)
  • Evidence of analysis and evaluation
  • Documented outcome in a written report
• Where a formal thesis is not preset, applicants must provide evidence through:
  • Unit outlines or course handbook
  • Project or technical reports
  • Supplementary portfolio

Generic transcript entries such as “Project”, “Practical”, or “Training” must not be assumed to meet the requirement without supporting documentation.

Evidence required for Supplementary Portfolio

• Applicants who do not meet the formal research component requirement may be considered via a supplementary portfolio demonstrating equivalent research capability.
• Applicants must provide at least 1 – 2 substantial pieces of evidence.
• Each submission must demonstrate:
  • Problem definition
  • Methodology or approach
  • Analytical component (e.g. calculations, modelling, evaluation)
  • Results and conclusions
  • Written documentation
• Acceptable evidence includes:
  • Final-year or capstone project reports
  • Technical research or investigation reports
  • Engineering design projects with analytical depth
  • Simulation/modelling studies with documented methodology
  • Industry-based technical reports (e.g. feasibility studies, root cause analysis)
• The following are not sufficient on their own:
  • CVs or resumes
  • Internship certificates
  • Project titles without supporting documentation
  • Software usage without explanation of methodology
  • Descriptive work without analysis

Industry experience will only be considered where supported by documented technical outputs demonstrating structured inquiry. Where the quality of evidence is unclear, applications must be referred to the Academic Team prior to any admission decision.

AND

6. An appropriate level of English Language Proficiency equivalent to an English pass level in an Australian Senior Certificate of Education, or an IELTS score of 6.0 (with no individual band less than 6.0), or equivalent as outlined in the EIT Admissions Policy.

Please note: Meeting the minimum admission criteria does not guarantee entry to our programs. Applications are assessed on a case-by-case basis.

Please check the Documentation Guidelines for your application.

Our Program Leaders are Dr Igor Shufrin and Dr Arti Siddhpura.

The course is delivered by experienced engineers, technical experts and academicians from around the world. Many have tackled real-world engineering challenges and brought practical, applied knowledge into this course.

We draw from a global pool of lecturers across our organization. Explore our full team of expert educators on the Instructors & Lecturers page.

Please note: Not all lecturers and instructors listed on this page will teach every course. The team teaching your course will be confirmed as part of your course enrolment.

For full current fees in your country go to the drop down filter at the top of this page or visit the Fees page.

Payment Methods

Learn more about payment methods, including payment terms & conditions and additional non-tuition fees.

The program is accredited by EIT under its Self-Accrediting Authority granted by TEQSA.

This course is classified as Level 9 under the Australian Qualifications Framework (AQF).

Students should satisfy themselves through their own research with their local accreditation before commencing the program.

This course may use the following software:

• Interactive Heat Transfer (IHT) software
• Automation Studio
• ABAQUS
• ANSYS
• GasTurb
• SolidWorks
• Autodesk Inventor
• MATLAB/Simulink

Due to ongoing unit and course reviews, software may change from the list provided. Learn more about the Practical Learning at EIT here

Potential job roles include (but not restricted to) engineering positions in the following areas of expertise:

• Advanced Simulation & FEA Specialist
• Fatigue & Fracture Analysis Engineer
• Reliability & Asset Integrity Specialist
• R&D Engineer (Advanced Mechanical Systems)

Our master’s degrees take two years to complete full-time on-campus, and longer for those studying part-time. You will spend approximately 10 hours per week, per unit, learning the program material, completing assessments and attending tutorials. After enrolment the maximum time allowed to complete all units is 5 years.

Application Deadline:
You must submit your application at least four weeks before the start date to be considered for your desired intake.

Census Date:
A census date is the date at which an enrolment is considered to be final. Any withdrawal you make after the study period census date will incur an academic penalty (for example, a fail grade) and a financial penalty (for example, no refund of your student contribution or tuition fees). See our census dates.

Any student has a right to appeal a decision of the Engineering Institute of Technology (EIT) or any member of the institute’s staff. EIT has a comprehensive Policy on Appeals and Grievances to assist students.