Using Fe-Fe3C phase diagram (see below), determine at what temperature iron chan
ID: 1868031 • Letter: U
Question
Using Fe-Fe3C phase diagram (see below), determine at what temperature iron changes its crystal structure from BCC to FCC. Composition (at% C) 10 15 20 25 1600 1538 C 1493C 1400 2500 1394C 1200 1147 C 2.14 4.30 y. Austenite 1000 912 C 800 1500 27 C 0.76 0.022 , Ferrite 600 ? + Fe3C Cementite (FegC) 1000 400 6.70 (Fe) Composition (wt% C) IE9.21 The iron-iron carbide phase diagram. [Adapted from Binary Alloy Phase Diagrams, 2nd edition, Vo, T. B. Massalski (Editor-in-Chief), 1990. Reprinted by permission of ASM International, Materials Park, OH.Explanation / Answer
=> BCC ?-ferriteTransforms to FCC ?-austenite at 912 °C.
=>FCC Fe Transforms to BCC ?-ferrite at 1395 °C
Phases in Fe–Fe3C Phase Diagram:
?-ferrite - solid solution of C in BCC Fe
• Stable form of iron at room temperature.
• The maximum solubility of C is 0.022 wt%
• Transforms to FCC ?-austenite at 912 °C
?-austenite - solid solution of C in FCC Fe
• The maximum solubility of C is 2.14 wt %.
• FCC Fe Transforms to BCC ?-ferrite at 1395 °C
• Is not stable below the eutectic temperature
(727 ° C) unless cooled rapidly (Chapter 10)
?-ferrite solid solution of C in BCC Fe
• The same structure as ?-ferrite
• Stable only at high T, above 1394 °C
• Melts at 1538 °C
Fe3C (iron carbide or cementite)
• This intermetallic compound is metastable, it
remains as a compound indefinitely at room T, but
decomposes (very slowly, within several years)
into ?-Fe and C (graphite) at 650 - 700 °C
Fe-C liquid solution
• C is an interstitial impurity in Fe. It forms a solid solution
with ?, ?, ? phases of iron
• Maximum solubility in BCC ?-ferrite is limited (max.
0.022 wt% at 727 °C) - BCC has relatively small interstitial
positions
• Maximum solubility in FCC austenite is 2.14 wt% at 1147
°C - FCC has larger interstitial positions.
thank you.....
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