Fundamentals of materials science with emphasis on the structure of materials and structure/property relationships: atomistic models; equilibrium phase diagrams; kinetics and nonequilibrium transformation diagrams; thermal-mechanical processing; microstructure formation and control; ductility mechanisms; material selection; and an introduction to fracture.

This course may not be repeated for credit.

Lecturer:
     Prof. Joanna Wong
     Prof. Ahmed Tiamiyu

Teaching Assistants:
     Nicholas Elderfield 
     Neysa Gunness
     Setareh Homayoonia
     Aman Khatkar
     Mackinley Love
     Marlon Ng
     Muhammad Shafi
     Yinghao Sun
     Hussam Tawfik
     Muhammad Zia ud din Urf Umer

Fundamentals of materials science with emphasis on the structure of materials and structure/property relationships: atomistic models; equilibrium phase diagrams; kinetics and non-equilibrium transformation diagrams; thermal-mechanical processing; microstructure formation and control; ductility mechanisms; material selection; and an introduction to fracture.

Lecturer:
     Prof. Joanna Wong

Teaching Assistants:
     Yu Sung (Terry) Chuo
     Nicholas Elderfield 
     Neysa Gunness
     Setareh Homayoonia
     Mohosin Rana
     Hussam Tawfik
     Edwin Yanez Orquera
         

Fundamentals of materials science with emphasis on the structure of materials and structure/property relationships: atomistic models; equilibrium phase diagrams; kinetics and nonequilibrium transformation diagrams; thermal-mechanical processing; microstructure formation and control; ductility mechanisms; material selection; and an introduction to fracture.
This course may not be repeated for credit

Lecturer:
     Prof. Joanna Wong

Tutorials:
     Zahra Abooalizeadeh

Laboratory Technician:
     Brandon Ferguson

Teaching Assistants:
     Elias El Dik
     Zachary Kockerbeck
     Ehasan Taghavaei
     Brandon Wong

Fundamentals of materials science with emphasis on the structure of materials and structure/property relationships: atomistic models; equilibrium phase diagrams; kinetics and non-equilibrium transformation diagrams; thermal-mechanical processing; microstructure formation and control; ductility mechanisms; material selection; and an introduction to fracture.

Lecturer:
     Prof. Joanna Wong

Tutorials:
     Zahra  Abooalizeadeh

Laboratory Technician:
     Brandon Ferguson

Teaching Assistants:
     Edwin Yanez Orquera
     Nicholas Elderfield 
     Mojtaba Zare

Fundamentals of materials science with emphasis on the structure of materials and structure/property relationships: atomistic models; equilibrium phase diagrams; kinetics and non-equilibrium transformation diagrams; thermal-mechanical processing; microstructure formation and control; ductility mechanisms; material selection; and an introduction to fracture.

Lecturer:
     Prof. Joanna Wong

Tutorials:
     Yao Yang

Laboratory Technician:
     Brandon Ferguson

Teaching Assistants:
     Edwin Yanez Orquera
     Nicholas Elderfield 
     Shan Qian

Overview of high-performance lightweight materials used in structural applications, namely fibre-reinforced polymer composites. Considerations for material selection, manufacturing, characterization and testing. Failure analysis. Discussion of materials-processing-structure-property relationships. Applications to aerospace fabrication will be discussed. Practical skills to be developed through a laboratory component.

Lecturer:
     Prof. Joanna Wong

Designed to provide graduate students, especially at the PhD level, with the opportunity of pursuing advanced studies in particular areas under the direction of a faculty member.  Students would be required to consider problems of an advanced nature.

Overview of the considerations and challenges in processing fibre-reinforced polymer composites.  Introduction and discussion of constituent materials, reactive polymer composites, thermoplastic composites, textile preforms, autoclave processing, pultrusion, thermoforming, filament winding, liquid composite molding, process modelling, testing and characterization techniques.

Lecturer:
     Prof. Joanna Wong

Designed to provide graduate students, especially at the PhD level, with the opportunity of pursuing advanced studies in particular areas under the direction of a faculty member.  Students would be required to consider problems of an advanced nature.

Overview of the considerations and challenges in processing fibre-reinforced polymer composites.  Introduction and discussion of constituent materials, reactive polymer composites, thermoplastic composites, textile preforms, autoclave processing, pultrusion, thermoforming, filament winding, liquid composite molding, process modelling, testing and characterization techniques.

Lecturer:
     Prof. Joanna Wong