Metallurgy
About Metallurgy
A procedure used to extract metals in their pure state is referred to as metallurgy. Minerals are made up of soil, rocks, limestone, sand, and metal complexes. Commercial metals are easily and cheaply mined from minerals. Ores are the name for these minerals. The physical and chemical behavior of metallic elements, their intermetallic compounds, and their mixes, known as alloys, are studied in this area of materials science and engineering.
Why is Metallurgy important?
Modern airplanes, transportation vehicles (automobiles, trains, ships), recreational vehicles, structures, implanted devices, cutlery and cookware, coinage and jewelry, guns, and musical instruments are all made with the help of metallurgy.
Who should take the Metallurgy Exam?
- Quality assurance engineer
- Metallurgical engineer
- Process engineer
- Plant manager
- Production manager
Metallurgy Certification Course Outline
- Basic Metallurgy
- Physical Metallurgy
- Atomic Packing Factor
- Crystallographic Orientation
- Physical Metallurgy- Point Defect
- Light Metals and Alloys
- Radii of Available Sites in Iron
- Atomic Radii of Interstitial Elements
- Interstitial Sites
- Line Defect
- Surface Defect
- Iron Carbon Diagram
- Cooling Curve for Pure Iron
- Allotropy
- Invariant Reactions in Iron
- Steel According to Carbon Percentage
- Eutectoid Decomposition of Austenite
- Nucleation and Growth of Pearlite
- Hypo-Eutectoid Decomposition of Austenite
- Important Metallurgical Phases and Micro-constituents
- Definitions of Transformation Temperatures in Iron and Steel
- Effect of Alloying Elements on Critical Temperatures
- Limitations of Fe-Fe2C Daigram.