FuLRE 10.28 Isothermal 900 1600 nsformation diagram for a 1.13 wt% C iron-carbon alloy: A, astenite; B, bainite; C, peutectoid cementite; M, martensite; P, 800 A+C 1400 700 1200 A+P 600 P arlite. [Adapted from H. Boyer (Editor), Atlas of Isothermal Transformation and poling Transformation Diagrams, American Society for Metals, 1977, p. 33.] 1000 A + B 500 800 400 600 50 % 300 400 M(start) 200 M(50%)_ _ - 200 100E-_M19Q%L_ Temperature (°C) Temperature (°F)

1. Given the time-temperature transformation diagram, what would be the phases present for a 1.13 wt. % C steel with no alloying elements. calculate the amount of pro eutectoid product, where applicable (at the bottom) 

A.) quenched in cold water to 380 C in 0.1 seconds, then held at 380 C for 30 seconds, then quenched to room temperature

B.) cooled in air at 2 C/minute to 600oC, then quenched to room temperature

C. quenched in cold water to 550 C in 0.1 seconds, then held at 550 C for 2 seconds, then quenched to room temperature

D. Necessary Steel Phase Diagram Calculations to determine the amount of pro eutectoid product:

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FuLRE 10.28 Isothermal 900 1600 transformation diagram for a 1.13 wt% C iron-carbon alloy: A, austenite; B, bainite; C, proeutectoid cementite; M, martensite; P, pearlite. [Adapted from H. Boyer (Editor), Atlas of Isothermal Transformation and Cooling Transformation Diagrams, American Society for Metals, 1977, p. 33.] 800 A +C 1400 700 1200 A+P 600 1000 A +B 500 800 B 400 600 50 % 300E 400 M(start) 200 M(50%) 200 100 _M19Q%L. 102 103 104 105 106 1 10 Time (s) 1600 Fiquid liquid 1400 1227 + liquid 1200 I148* 2.14 4.3 1000 y + carbide 27 (1340°F) 800 0.77 0.02 600 « + carbide Fe,C 400 100% Fe Yeight percent carbon Temperature, °C Temperature (*C) Temperature (°F)