Materials research in the Department emphasizes the development of new processes and process models primarily for novel materials in the transportation sector and biomaterials for medical applications and aims at providing materials process solutions of societal magnitude including lightweight materials, cleaner and greener metallurgical processes, engineered materials to replace or repair injured body parts. The Department fosters a strong interaction with industry through their Industrial Research Chairs. Industrially oriented research is combined with fundamental studies to advance understanding of the microstructure mechanisms and resulting properties.

The department offers opportunities for study in the fields of casting and solidification of metals, ceramic processes and properties, corrosion, composite material processing and properties, hydrometallurgy and electrorefining, physical metallurgy, pyrometallurgy, remelting processes, thermomechanical processing and environmental processing.

What makes the program unique?

Many of the Department’s laboratories and offices for graduate students are located in the Advanced Materials and Process Engineering Laboratory (AMPEL) – an interdisciplinary facility on campus that brings together materials researchers from Physics, Chemistry, Materials, Electrical and Mechanical Engineering. Having a common home for materials research has promoted cross-disciplinary projects and provides graduate students with an interdisciplinary environment that offers unique opportunities in their training program to become graduates who will be in high demand worldwide for employment in academia and industry.

Quick Facts

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

Research Focus

The department offers opportunities for study in the fields of casting and solidification of metals, ceramic processes and properties, corrosion, composite material processing and properties, hydrometallurgy and electrorefining, physical metallurgy, pyrometallurgy, remelting processes, thermomechanical processing and environmental processing.

Research Supervisors

This list shows faculty members with full supervisory privileges who are affiliated with this program. It is not a comprehensive list of all potential supervisors as faculty from other programs or faculty members without full supervisory privileges can request approvals to supervise graduate students in this program.

  • Asselin, Edouard (Hydrometallurgy (including leaching, electrometallurgy and residue characterization), Electrochemistry (including high-temperature electrochemistry and sensors).
  • Cockcroft, Steven (Clean Energy Research, Physical phenomena in non-ferrous casting, hot tearing, Optimization of industrial casting processes, Mathematical modelling).
  • Dixon, David (Fixed-bed leaching).
  • Dreisinger, David (Hydrometallurgy industry, iron, copper).
  • Fernlund, Goran (Polymer matrix composites, Biomaterials, Adhesive bonding).
  • Ko, Frank (Textile Structural Composites).
  • Liu, Wenying (Use of seawater in heap leaching; Release of selenium and associated toxic elements from mine waste materials; Heap leach modelling).
  • Maijer, Daan (Heat Transfer, Fluid Flow, Stress, Microstructure Materials processing models employed for process control).
  • Militzer, Matthias (Multi-scale modelling of microstructure evolution, Physical metallurgy of advanced high strength steels).
  • Poole, Warren (Advanced aluminum alloys, High strengths, high formable steels, Metal matrix composites, Microstructure/property models).
  • Poursartip, Anoshiravan (Polymer matrix composite materials).
  • Sinclair, Chadwick (Predicting the correlation between the structure of alloys, at the microstructural and atomic scale, and their mechanical behaviour).
  • Tafaghodi, Leili (Sustainable high-temperature materials processing; Synthesis and refining of high-quality metals and alloys; Thermodynamics; Mineral processing).
  • Troczynski, Tom (ceramics, coatings, biomaterials, refractories, fracture, Medical applications, Processing, microstructure and properties of ceramics).
  • Wang, Rizhi (Biomaterials, biomechanics Also, the structure and formation processes of biologically formed materials (eg seashells, silk, teeth) and applies the mechanisms to the design and processing of novel materials).
  • Xia, Guangrui (Group IV semiconductors in microelectronics; Si-compatible lasers; 2D semiconductors; 3D integration of Ics; Raman spectroscopy).

Sample Thesis Submissions

  • Kinetic study of the dissolution of chalcopyrite in the presence of a catalyst under acidic sulfate medium
  • Effect of thiourea on the dissolution of chalcopyrite in acidic ferric solutions at different temperatures
  • Boron and phosphorus removal from Si-Fe solvent using SiO₂-CaO-Al₂O₃ slag
  • Atmospheric alkaline pre-oxidation of refractory sulphide gold ores
  • The effect of quench rate and initial grain structure on the mechanical behaviour of an Al-Mg-Si-Mn aluminum alloy
  • Metallurgical investigation of premature failures for 316L austenitic stainless steel pipes
  • Effect of the properties of coal surface and flocculant type on the flocculation of fine coal
  • The kinetics of austenite formation during continuous heating of a multi-phase steel
  • Mathematical modelling of the microstructural evolution during the hot rolling of AA5083 aluminum alloys
  • Modelling of the formation of longitudinal facial cracks in the continuous casting of steel slabs
  • The removal of cobalt from zinc sulphate electrolytes using the copper-antimoney process
  • A fundamental study of cobalt cementation with zinc dust in the presence of copper and antimony additives
  • Bioleaching of enargite
  • A peel adhesion test for thermal spray coatings
  • Continuous biological leaching of copper from a chalcocite ore and concentrate in a saline environment

Requirements

TOEFL (IBT) OVERALL SCORE REQUIREMENT

90

  • ibT Reading 22
  • ibT Writing 21
  • ibT Listening 22
  • ibT Speaking 21

IELTS OVERALL SCORE REQUIREMENT

6.5

  • IELTS Reading 6.0
  • IELTS Writing 6.0
  • IELTS Listening 6.0
  • IELTS Speaking 6.0
Program taught in:
  • English

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Last updated December 7, 2018
This course is Campus based
Start Date
Sep 2019
Jan 2020
Duration
2 years
Full-time
Price
4,897 CAD
$4,897.83 Tuition per year for Canadian Citizens, Permanent Residents, Refugee, Diplomat; $8,604.66 Tuition per year for International students
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Start Date
Sep 2019
End Date
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Jan 2020
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May 2020
End Date
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Oct 1, 2019

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