Bachelor of Engineering (Honours) Diploma in Industry Practice (Mechanical & Mechatronic)

Here’s how students in the Bachelor of Engineering (Honours) / Diploma in Professional Engineering Practice (Mechanical & Mechatronic) at University of Technology Sydney (UTS) gain hands-on, practical skills—backed by world-class facilities and strong industry connections:

From day one, you’ll dive straight into practice-based learning. You’ll design, build, and test mechanical and mechatronic systems, working with real engineering tools in dedicated labs and fabrication spaces. At UTS, the Faculty of Engineering & Information Technology focuses on studio- and team-based work, so you’ll collaborate on projects, use CAD and control software, build prototypes, and apply your learning in real workplace settings. Along the way, you’ll have full access to the UTS library, digital study hubs, and specialist research labs. The emphasis is not just on lectures—it’s on doing—so when you graduate, you’re ready to step into engineering roles confidently.

Here’s a closer look at key experiential learning opportunities:

• Professional work placements: You’ll complete two industry placements, totaling at least 48 weeks of real-world experience, embedded within your degree.

• Specialist engineering labs: UTS has nine state-of-the-art mechanical and mechatronic labs, including the Infrastructure Robotics Lab, Human-Robot Interaction Lab, and Industry 4.0 Testlab. These labs are designed for hands-on experimentation with sensors, robotics, automation, and manufacturing.

• ProtoSpace fabrication facility: Bring your ideas to life with access to advanced 3D printing, laser cutting, and prototyping technologies, turning your CAD designs into real physical models.

• Industry-standard software and tools: You’ll become proficient in computer-aided design (CAD), modelling, robotics programming, control systems, and project management tools—core capabilities that employers value.

• Team projects and studio classes: Subjects like Collaboration in Complex Projects and Engineering Project Appraisal focus on teamwork, communication, and solving real-world engineering problems in groups.

• Strong industry connections: UTS Engineering partners with over 1,000 organisations, giving you access to potential sponsors, project briefs, and placement opportunities.

• Capstone honours project: In your final year, you’ll tackle a substantial engineering challenge, often linked to industry or a real-world problem, allowing you to apply your technical skills in a meaningful way.

• Modern learning environments: The FEIT building features computer labs, study pods, and collaborative theatres designed to support group work and digital tools.

• Library and digital resources: UTS provides extensive support for your learning and project work, including access to data visualization facilities such as the Data Arena and Data Lounge, enabling advanced research and project development.

Here’s a glimpse of your future progression and opportunities if you choose the Bachelor of Engineering (Honours) / Diploma in Professional Engineering Practice (Mechanical & Mechatronic) at the University of Technology Sydney — it’s a fantastic choice for kickstarting your engineering career. Graduates go on to roles like Mechanical Engineer, Mechatronic Engineer, Systems Design Engineer, or Robotics Designer, stepping confidently into industries from manufacturing and automation to automotive and aerospace.

Progression & Future Opportunities:

University support to help you get employed:
UTS provides a range of career services to help you succeed. You’ll have access to one-on-one career guidance, resume reviews, group coaching, and job or internship listings through the UTS Careers service. Additionally, the CareerHub platform connects engineering students with industry-approved internships and work placements, giving you real-world experience while you study.

Employment stats and salary prospects:
Engineering is a growing field. UTS labour market insights show a projected 11.7% increase in engineering manager positions over the next five years. Median annual earnings for engineering managers are around AU $187,700. Across all disciplines, 90.8% of UTS graduates were employed full-time within three years of graduating, reflecting the strong career outcomes of a UTS degree.

University–industry partnerships:
UTS has strong connections with over 1,000 partner companies, helping engineering students build professional networks and gain practical experience. The School of Mechanical & Mechatronic Engineering also engages in cutting-edge research partnerships in areas such as autonomous systems and advanced manufacturing, giving you exposure to industry-relevant innovation.

Accreditation and international recognition:
Your degree is fully accredited by Engineers Australia and internationally recognised through the Washington Accord, meaning your qualification has credibility worldwide.

Graduation outcomes:
Graduates are ready to design, manufacture, and deploy advanced mechanical and mechatronic systems — from robots and smart machines to complex automation equipment. The program combines hands-on learning with two full professional work placements (totalling 48 weeks) and an honours research project, ensuring you graduate with both practical and research experience.

Further academic progression:
After completing this program, you can move into postgraduate study, such as a Master of Engineering, Master of Engineering Management, or research pathways (MPhil/PhD) in robotics, automation, or smart systems. The strong accreditation and industry focus of the undergraduate degree mean you’ll be well prepared for advanced study and specialist roles.