- Extractive Metallurgy Major (BSc Science)
- Admission criteria
- Guaranteed ATAR 70
A full-time study load usually consists of 200 credits (approximately eight units) per year, with 100 credits (approximately four units) in each semester.
Learn to manage the operation of metallurgical processing plants in an economical and environmentally responsible way.
Curtin is ranked in the top one per cent of universities worldwide (Academic Ranking of World Universities 2019)
Graduate ready to work in environments where research and discovery abound.
Professionally recognised by the Institute of Mining and Metallurgy.
Extractive metallurgists extract and purify metals and other products from ores obtained through mining operations. They have a strong understanding of chemistry, environmental science and mineralogy.
In this course you will learn to develop, optimise and manage the operation of metallurgical processing plants in an economical and environmentally responsible way. These plants transform low-value raw materials into useful, high-value mineral and metal products.
You will cover the chemical, physical, economic, environmental and sustainable principles and practices for the extraction of metals from ores.
Your first year will be taught at our main campus in Perth, the second year in either Perth or Kalgoorlie, and the final year in Kalgoorlie, which can help you maximise your exposure to industry and potential future employers.
This major sits within the Bachelor of Science (Science) degree. To apply for this major, you will apply for the Bachelor of Science (Science).
Please refer to the handbook for additional course overview information.
- Excellent opportunities for vacation work and graduate employment programs.
- Wide range of double degrees offered.
- Well-equipped laboratories for hands-on training.
- You will have the opportunity to study at Curtin’s Western Australian School of Mines, a leader in mining and geosciences education in Australia.
- Metallurgists may find employment in a variety of companies in the mining industry and in allied industries, including banking and finance, research and development, chemical engineering, mineral processing and processing consulting, in Australia and abroad.
View our student profile table to get an indication of the likely peer cohort for new students at Curtin University. This table provides data on students that commenced undergraduate study and passed the census date in the most relevant recent intake period for which data are available. It includes those admitted through all offer rounds and international students studying in Australia.
This course is recognised by the Australasian Institute of Mining and Metallurgy.
- Plant metallurgist
- Process metallurgist
- Processing consultant
- Banking and finance
- Minerals and mining
- Research and development
- Bachelor of Engineering (Honours)
- Master of Engineering Science (Metallurgy)
- Master of Philosophy
- Doctor of Philosophy
What you'll learn
- think critically and creatively to generate innovative solutions and apply logical an rational processes to analyse minerals and metallurgical technology practice
- access, evaluate and synthesise minerals and metallurgical information from multiple sources
- communicate in ways appropriate to the discipline of minerals engineering and metallurgy
- apply minerals and metallurgical scientific principles to metallurgical process operation
- use and apply technologies, recognising their advantages and limitations, when applied to minerals and metallurgical information
- demonstrate responsibility and self-learning skills by applying critical reflection and being proactive
- describe and apply international best practice standards in minerals engineering and metallurgical methods and technologies
- demonstrate respect for cultural diversity in professional life
- work ethically and professionally, both within a team and independently
Curtin requires all applicants to demonstrate proficiency in English. Specific English requirements for this course are outlined in the IELTS table below.
|IELTS Academic (International English Language Testing System)|
|Overall band score||6.5|
Please note: The cut-off scores below are for 2018 only.
|GCE/STPM/HKALE (A-levels - best of three)||5|
|Ontario Gr 12 (best of 6)||60|
|ATAR (including WACE/SACE/HCE/VCE)||70|
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Essential course prerequisites
Mathematics and chemistry or physics.
Other requirements and notes for this course
July intake: Course duration may exceed three years due to unit prerequisites.
In addition to the course-specific admission criteria listed above, please read our general admission criteria. Our general admission criteria apply to all courses at Curtin University.
At Curtin, we understand that everyone’s study journey has been different.
You may have already studied some of the units (subjects) listed in your Curtin course at another educational institution, or you may have work experience that matches the degree requirements.
A successful CRL application exempts you from having to complete certain units within your course and means you could finish your degree in a shorter amount of time.
CRL is also known as recognition of prior learning, advanced standing and credit transfer.
Use the CRL search to find out how much CRL you qualify for, or contact us at:
Tel: 1300 222 888
Fees & charges
Please view the Bachelor of Science (Science) degree for indicative fees.
How to apply
Please review information on how to apply for the campus of your choiceApply now
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The offering information on this website applies only to future students. Current students should refer to faculty handbooks for current or past course information. View courses information disclaimer.
- Curtin course code: MJRU-EXMET
- Last updated on: January 15, 2020