Phd Student
Sydney, Australia
Thesis title: A thermodynamically admissible hydrodynamic-plastic model for crushable mineral materialsTeaching experience at Sydney University:Conducting lab experiments, Augmented Reality and Virtual Reality experiments, computer programming, problem solving and assessment in below courses:• Particle Mechanics for Geotechnics (120 hours)Developing tutorial notes and participating in preparation of lecture notes for “Particle Mechanics for Geotechnics” as a brand-new unit of study• Environmental Engineering (142 hours)• Geotechnical Engineering (184 hours)Invited talks:• 2019 - A granular hydrodynamic model covering solid, fluid and gaseous states and transitions in between, ALERT Geomaterials Workshop, Aussois, France, September 30• 2019 - Constructing a granular hydrodynamic framework that captures rheological observations, 12th International Congress on Mechanics, Thessaloniki, Greece, September 25 (keynote speech)• 2019 - A granular hydrodynamic framework capturing rheological observations, The Australian Association for Granular Media (ANAGRAM) Workshop (Grain Day), Sydney, Australia, July 4