Expert-level metals engineering covering crystal structure, phase diagrams, strengthening mechanisms, steel metallurgy, aluminum alloys, and failure analysis.
BCC: body centered cubic, iron at room temperature, less close-packed. FCC: face centered cubic, aluminum, copper, austenitic steel, more ductile. HCP: hexagonal close packed, titanium, magnesium, limited slip systems. Dislocations: line defects that allow plastic deformation at low stress. Grain boundaries: planar defects, strengthen by impeding dislocation motion.
Iron-carbon: fundamental for steel design, austenite, ferrite, cementite regions. Eutectic: composition with lowest melting point, simultaneous solidification. Eutectoid: solid state transformation at 0.77 wt% C in iron-carbon system. Lever rule: phase fraction from composition and tie line intersection.
Solid solution: solute atoms distort lattice, impede dislocations. Precipitation hardening: fine precipitates block dislocation motion. Work hardening: plastic deformation increases dislocation density. Grain refinement: smaller grains increase yield strength via Hall-Petch. Hall-Petch: sigma_y = sigma_0 + k over sqrt d, d is grain diameter.
Heat treatment: anneal, normalize, quench and temper, case hardening. Martensite: hard metastable phase from rapid quench of austenite. TTT diagram: time-temperature-transformation, guides heat treatment design. Hardenability: ability to form martensite throughout section, Jominy test. Stainless steel: austenitic, ferritic, martensitic, duplex types.
| Pitfall | Fix |
|---|---|
| Hydrogen embrittlement in high strength steel | Avoid acid cleaning, bake after plating |
| Sensitization in austenitic stainless | Use low carbon grade or stabilized grade near welds |
| Wrong alloy for corrosive environment | Select alloy based on actual service conditions |
| Overheating during welding | Control heat input and use proper filler metal |