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Masters Degrees in Materials Science, Canada

We have 6 Masters Degrees in Materials Science, Canada

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The Department of Materials Engineering offers opportunities for study in the following fields. Read more

Program Overview

The Department of Materials Engineering offers opportunities for study in the following fields: casting and solidification of metals; ceramic processing and properties; refractories; corrosion; composites; high temperature coatings; biomaterials; extractive metallurgy including hydrometallurgy, bio-hydrometallurgy, electrometallurgy, and pyrometallurgy; physical metallurgy; thermo-mechanical processing related to materials production; environmental issues related to materials productions; electronic materials; nanofibers; textile structural composites.

Materials Engineers are experts on the entire life cycle of materials, including recovery of materials from minerals, making engineered materials, manufacturing materials into products, understanding and evaluating materials performance, proper disposal and recycling of materials, and evaluating societal and economic benefits.

Quick Facts

- Degree: Master of Applied Science
- Specialization: Materials Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Registration options: Full-time
- Faculty: Faculty of Applied Science

Research focus

Composites, Microstructure Engineering, Extractive Metallurgy, Solidification, Biomaterials & Ceramics

Research highlights

In our research, we work closely with industry partners internationally. We have faculty with world-renowned expertise in hydrometallurgy, sustainability, nanomaterials, biomaterials and ceramics. Recent research developments in the department are helping to reduce environmental impact in the mining industry and enabling new possibilities in medical treatments. We also have a leading role in MagNet, an initiative that aims to achieve significant reductions in carbon dioxide emissions in the transportation sector. We have a long history of providing excellence in education and offer one of the top-rated materials programs in North America. Graduates of our program are enjoying rewarding careers locally and internationally in a wide range of industries from mining to advanced electronics, health care and aerospace.

Related Study Areas

Biomaterials, Ceramics, Composites, Hydrometallurgy, Microstructure Engineering, Corrosion

Facilities

Research is carried out in both the Frank Forward Building and the Brimacombe Building (AMPEL) on UBC campus.

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The Department of Materials Science and Engineering (MSE) offers graduate programs leading to the degrees of Master of Applied Science (MASc), Master of Engineering (MEng), and Doctor of Philosophy (PhD). Read more
The Department of Materials Science and Engineering (MSE) offers graduate programs leading to the degrees of Master of Applied Science (MASc), Master of Engineering (MEng), and Doctor of Philosophy (PhD). Graduate courses and research opportunities are offered to qualified students in a wide range of subjects.

Typical subjects in extractive and process metallurgy involve a study of the equilibria existing during the reduction of oxides with carbon and metals, life cycle analysis of materials, properties of iron and steelmaking slags, the fundamental properties of fused salt solutions, fused salt electrolysis of reactive metals, kinetics of high-temperature reactions, mathematical modelling of metallurgical processes, process metallurgy, and hydrometallurgy.

Typical physical metallurgy and materials science subjects deal with the structure, properties, and application of advanced materials in such fields as nanomaterials, surface chemistry, energy, sustainability, optoelectronics, biomaterials, nuclear materials, metalmatrix composites (MMCs), metallic glasses, corrosion, fatigue, phase transformations, and solidification. These studies are all related to the general problem of understanding structure-property-processing-performance relationships in materials.

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The Department of Materials Engineering offers opportunities for study in the following fields. Read more

Program Overview

The Department of Materials Engineering offers opportunities for study in the following fields: casting and solidification of metals; ceramic processing and properties; refractories; corrosion; composites; high temperature coatings; biomaterials; extractive metallurgy including hydrometallurgy, bio-hydrometallurgy, electrometallurgy, and pyrometallurgy; physical metallurgy; thermo-mechanical processing related to materials production; environmental issues related to materials productions; electronic materials; nanofibers; textile structural composites.

Materials Engineers are experts on the entire life cycle of materials, including recovery of materials from minerals, making engineered materials, manufacturing materials into products, understanding and evaluating materials performance, proper disposal and recycling of materials, and evaluating societal and economic benefits.

Quick Facts

- Degree: Master of Science
- Specialization: Materials Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

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In the last decade, it has become clear that companies must reinvent their advanced manufacturing capabilities to remain globally competitive. Read more

In the last decade, it has become clear that companies must reinvent their advanced manufacturing capabilities to remain globally competitive. There is a growing need across multiple industries for engineers with the technical skills and expertise to research, develop, test and optimize these next-generation manufacturing solutions. This is a rapidly evolving field, and companies are challenged to find engineers who have the sector-relevant cross-disciplinary technical expertise to develop innovative solutions.

The Master of Engineering Leadership (MEL) in Advanced Materials Manufacturing is an intensive one-year degree program for engineers who want to advance their careers in the automotive, aerospace and manufacturing sectors. The project-based curriculum covers all stages of the industry value chain and incorporates advanced simulation tools and case studies. You will work in world-class facilities, including the Advanced Materials and Process Engineering Laboratory – a multidisciplinary research centre where engineers, scientists and health scientists collaborate – and the Centre for Metallurgical Process Engineering, an internationally recognized interdisciplinary research centre.

While 60 per cent of your classes will focus on your technical specialization, the remaining 40 per cent are leadership development courses that will enhance your business, communication and people skills. Delivery of the management and leadership courses are in partnership with UBC's Sauder School of Business.

What Makes The Program Unique?

The MEL in Advanced Materials Manufacturing degree was developed in close collaboration with industry partners, who told us they need to hire leaders with cross-functional technical and business skills to develop innovative solutions, manage teams and direct projects.

The MEL in Advanced Materials Manufacturing degree is a unique graduate program that empowers you to develop the sector-relevant cross-disciplinary technical skills in demand by top employers. The combination of technical expertise and leadership development makes the MEL in Advanced Materials Manufacturing program unique and highly relevant in today’s business environment.

To complement your academic studies, professional development workshops, delivered by industry leaders, are offered throughout the year-long program. These extra-curricular sessions cover a range of topics such as:

-Leadership fundamentals

-Giving and receiving feedback

-Learning how to deliver a successful pitch

-Effective presenting

The workshops also provide opportunities to network with professionals from a wide range of industries, UBC faculty and students in the MEL and MHLP programs.

Career Options

Our graduates will be in demand locally, nationally and internationally in industries where the latest design solutions depend upon multi-material solutions. Graduates are expected to be employed in diverse engineering roles as well as other fields, including project manager, R&D consultant, senior project engineer, lab manager, metallurgist, R&D portfolio manager, quality manager and senior packaging engineer.



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The Mechanical Engineering profession covers a very wide spectrum from nano-scale to industrial-scale and includes engines, robots, bio-mechanical and environmentally “green” systems. Read more
The Mechanical Engineering profession covers a very wide spectrum from nano-scale to industrial-scale and includes engines, robots, bio-mechanical and environmentally “green” systems.

The thesis-based Graduate Research Program leading to Master of Engineering Science (MESc) degree, provides cutting edge research opportunities to students using state-of-the-art experimental or computational research facilities under the close supervision of a faculty member(s). The Department has research strengths in diverse areas addressing present day challenges, as well as developing technologies for the future.

Visit the website: http://grad.uwo.ca/prospective_students/programs/program_NEW.cfm?p=92

Fields of Research

• Automation Technologies and Systems
• Materials and Solid Mechanics
• Mechanical Engineering
• Micro and Nano Systems
• Thermofluids

How to apply

For information on how to apply, please see: http://grad.uwo.ca/prospective_students/applying/index.html

Financing your studies

As one of Canada's leading research institutions, we place great importance on helping you finance your education. It is crucial that you devote your full energy to the successful completion of your studies, so we want to ensure that stable funding is available to you.
For information please see: http://grad.uwo.ca/current_students/student_finances/index.html

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Our MEng is a course-based degree that is structured to assist qualified engineers in the advancement of their professional careers and to provide students with the skills necessary to address key technological challenges. Read more
Our MEng is a course-based degree that is structured to assist qualified engineers in the advancement of their professional careers and to provide students with the skills necessary to address key technological challenges. We offer seven technical streams within our MEng program to allow you to receive specialized training in the specific areas of Mechanical Engineering that interest you.

Visit the website: http://grad.uwo.ca/prospective_students/programs/program_NEW.cfm?p=93

Fields of Research

• Automation Technologies and Systems
• Composite Materials
• Engineering in Medicine
• Heating, Ventilation and Air Conditioning (HVAC)
• Materials and Solid Mechanics
• Mechanical Engineering
• Thermofluids

How to apply

For information on how to apply, please see: http://grad.uwo.ca/prospective_students/applying/index.html

Financing your studies

As one of Canada's leading research institutions, we place great importance on helping you finance your education. It is crucial that you devote your full energy to the successful completion of your studies, so we want to ensure that stable funding is available to you.
For information please see: http://grad.uwo.ca/current_students/student_finances/index.html

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