150 likes | 298 Views
530.352 Materials Selection. Lecture #21 Steels - part II Wednesday November 2 nd , 2005. Transformations :. Equilibrium transformations (slow cooling) -> “ferrite” -> Fe 3 C “iron carbide” -> + Fe 3 C “pearlite”
E N D
530.352 Materials Selection Lecture #21 Steels - part IIWednesday November 2nd, 2005
Transformations : • Equilibrium transformations (slow cooling) -> “ferrite” -> Fe3C “iron carbide” -> + Fe3C “pearlite” • Nonequlibrium (fast cooling / quenching) -> ’ “martensite”
Pearlite : • Two phases ( + Fe3C)
Normalized (slow cooled) steels;mechanical properties : 2,500 50 Strength (MPa) Ductility (%) f UTS 500 YS 0 0 1% w/o Carbon
Martensite : • Quenched in distortions : + C C Fe
Martensite mechanical prop. : • very hard and • very brittle (too brittle !!!)
Quench and Temper : • Temper : heat treat at intermediate T (300-600 C) • Mechanical properties: • regains toughness (critical) with only a moderate drop in hardness • Microstructurally : • C comes out of lattice a precipitates as Fe3C, and distortion decreases with decrease amounts of dissolved C. • Loss of distortion leads to bcc structure and ductility. • Fe3C precipitates - precipitation strengthen the .
Quenched and tempered : 2,500 50 UTS f YS Strength (MPa) Ductility (%) f UTS • normalized • tempered 500 YS 0 0 1% w/o Carbon
Heat treatments and cooling : • Normalizing (heating to form ) • T ~ 1,000 C • much easier to roll / forge / form at this temperature • Quench - or - Slow cooling • martensite • pearlite • Tempering (heating to “soften” martensite) • carbides form, distortions relax
Quench rates : • To form martensite in pure Fe • Critical Cooling Rate (CCR) ~ 100,000 C/sec • To form martensite in mild steel : Fe - 0.8% C • CCR ~ 200 C/sec • To form martensite in alloy steels:Fe - 0.2-.6%C + 2-7% (Mo, Mn, Cr, Ni) • CCR < 1 C/sec
Alloying elements are added to : • improvehardenabilityof the steel • aides nucleation of martensite • solution strengthen and precipitation hardening • MxCy carbides form • give corrosion resistance • especially Cr which forms Cr203 • stabilize FCC austenite at RT • especially Ni • tougher, more ductile and easier to form • non-magnetic and creep resistant (diffusion is slower in FCC)
Alloying of steels : Type of steel:Fe + ...Typical uses: Low-alloy .2%C + pressure vessels, aircraft .8Mn,1Cr,2Ni parts, high applications. High-alloy .1% C High T and anti-corrosion, Stainless-steels .5Mn,18Cr,8Ni silverware, medical, etc.
Steel terminology (SAE-AISI) : • Plain carbon • 10xx • Manganese steels • 13xx • Nickel steels • 23xx • Ni-Cr-Mo steels • 43xx • HSLA • 9xx Note: xx indicates carbon content in hundredths of a percent
Other steel standards : • SAE-AISI • Society of Automotive Engineers ; American Iron and Steel Institute • ASTM • American Standards for Testing and Materials • AMS • Aerospace Materials Specifications • DIN • Deutsches Institut fur Normung • JIS • Japanese Industrial Standards Committee • UNS • Unified Numbering System