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Structural
Master of EngineeringSpecialisation (formal)Year: 2024
Structural
Contact information
Coordinator
Dr Tai Thai
Email: tai.thai@unimelb.edu.au
Melbourne School of Engineering
Currently enrolled students:
- General information: https://ask.unimelb.edu.au
- Contact: Stop 1
Future students:
- Further information: Master of Engineering (Structural)
- Contact: Enquiry Form
Overview
This course is discontinued and is no longer available for admissions.
Structural engineers apply mathematical and scientific principles to the design, development and evaluation of materials and systems used in building load-bearing structures like roads, buildings, rail lines, dams and offshore platforms. It is the objective of this course that graduates have acquired a sound fundamental understanding of the scientific principles underlying a number of sub-disciplines that are associated with structural engineering. Great emphasis is also placed on the development of generic skills with management, communication, problem-solving and design and innovation in structural engineering.
Students in this specialisation learn from high quality researchers recognised internationally for their expertise in high-rise structures, and wind, waves, earthquake, impact and blast resistant technologies. Design seminars, field work and workshops provide students with opportunities to work with industry professionals in their final year. Career opportunities exist in a variety of roles related to the design of structures, their longevity, and their ability to withstand extremes such as earthquake, high winds, blast or fire.
The Structural specialisation of the Master of Engineering has full accreditation with Engineers Australia and EUR-ACE®.
Intended learning outcomes
On completion of this specialisation, students should be able to:
- To produce graduates who have acquired the educational and professional standards of Engineers Australia, with which the course is accredited, and are skilled in structural engineering principles with the ability to apply them to complex, open-ended engineering tasks and problems.
Last updated: 13 November 2024