Master the basics of steel types, properties, and production in this interactive metallurgy foundation course.
Ferrous Metallurgy
Materials science is accompanying the design and discovery of new materials, specifically solids. This module will help understand how the properties of materials are controlled by structure and bonding at the atomic level. This will help the students understand the design, selection, and processing of materials for a wide range of applications in industries.
Explore steelmaking impurity control: master deoxidation, decarburisation, desulphurisation, and degassing in this metallurgy-focused course.
This course we will work through the key metallurgical principles that underpin successful metallurgical outcomes in steel, necessary for optimum material selection, optimum material processing and the production of the correct microstructure and mechanical properties
Learn to analyse end-to-end ore processing workflows through interactive scenarios in this self-paced course.
Explore mechanical testing methods for steel, from tensile and hardness tests to strip formability.
In this course of 3 modules we will look at how material properties are measured, assessed and can be influenced by processing.
Explore fuel types, combustion efficiency, and refractory optimization in this comprehensive, simulation-based furnace training series.
Learn to analyze iron production processes, materials, and operations through applied insights in this self-paced course.
Master steel transformation: Analyze alloying effects, predict microstructure, and apply diffusion models in this metallurgical fundamentals course.
Explore non-ferrous metals by analyzing their properties, applications, processing, maintenance, and sustainability through practical, self-paced modules.
Explore dislocations, nucleation, cold work, and annealing in metals across three interactive modules. Ideal for learners in materials engineering.